Pages

Mastering the Art of Toxicity Replacement: Using Safe Industrial Cleaners

ByTimothy Byron

The use of industrial degreasers is a method used by facilities in an effort to reduce hazards caused by grease, oil, dirt, and other equipment or surface contaminates. Unfortunately, most cleaning products are made of chemicals that pose an even bigger threat to human and environmental safety. Understanding the alternative options available for industrial cleaners is the best way to decide which product is the best choice for you.

Oxygen Cleaning Compounds

An oxygen cleaning compound (OCC) is a solution designed for precise sanitation. Removing contaminates from oxygen equipment is the most effective way of avoiding toxic exposure and fire, creating the need for a safe compound among several industries. Oxygen valves, hoses, piping, flasks, and tanks, all require meticulous cleaning that should not harm individual people or the environment. Due to the United States Environmental Protection Agency (EPA) setting regulations which prohibit the use of dangerous industrial cleaners like Freon, finding companies that offer safe alternatives has become much easier. Reputable solvent manufacturers will inform customers of their regulation compliance, as well as their dedication to create environmentally friendly compounds. The United States Navy provides a detailed report that can be used as a reference guide to compare products, featuring strict guidelines for oxygen industrial cleaners used on aircrafts, submarines, and diving equipment. The ideal compound has no flash point, is compatible with all metals, and is safe for both gaseous and liquid oxygen items.

Nuclear Grade Aqueous

Nuclear grade aqueous solvents are applied to all types of metal that are typically non responsive to traditional water-based agents. Potent, high quality formulas are actually industrial degreasers and cleaners all in one, making them highly desired products in facilities that battle multiple soils on a regular basis. Tough waste buildup including grease, oil, wax, carbons, and inks are quickly eliminated by spraying surfaces and wiping them down, rather than using multiple products for each. Although finding safe aqueous agents can be difficult if a strong nuclear grade formula is needed, non-flammable options are absolutely available. Eco-friendly manufacturers offer aqueous cleaning products that do not have a flash point, corrosive capability, or tendency to leave residue behind.

Heavy-Duty Multi Purpose

Heavy-Duty detergents are an even higher level of sanitation than nuclear grade, due to the fact that they are fully capable of cleaning metal, plastic, and rubber surfaces effectively. Traditional compounds are often referred to as butyl cleaning products, and contain a hazardous chemical called butyl cellosolve (glycol monobutyl ether). Butyl cellosolve is used in industrial degreasers, and have proven to be extremely toxic when users are exposed by inhalation, consumption, and even basic skin contact. The use of heavy-duty products saturated with butyl cellosolve is a high risk for any industry, as it attacks exposure victims by harming mucous membranes, depressing the central nervous system, causing liver failure, and accelerating kidney damage. Finding the safest alternative without sacrificing the strength of a butyl compound is no easy feat, and it will require a manufacturer with decades of experience. Qualified solvent manufacturers are often guided by chemists who possess the education and ability to truly master the art of toxicity replacement. An undying commitment from a company to develop and evolve toxic formulas is exactly what to look for if you're considering safe industrial cleaners.

Toxicity levels of chemical industrial degreasers are evaluated to assist customers in purchasing industrial cleaners that are safe to use.

Article Source:http://EzineArticles.com/?expert

What Manufacturers Should Consider Before Purchasing Degreasing Solvents

ByTimothy Byron

Getting rid of grease, carbon deposits, coal, dust, water-based paints, and fuel oil is no sweat with high quality aqueous degreasing solvents. Any dirty surface or grimy piece of equipment can be cleaned easily with an aqueous solvent, provided it is not a material that would be damaged by normal water contact. Manufacturing facilities frequently use these cleaners for tanks, power washing, and various mechanical applications. There are two types of solvent cleaners available, featuring some differences that may not seem important to manufacturers until they take a closer look. Although each is used to clean the same tough areas manufacturing plants always struggle with, some citrus industrial degreasing products are highly flammable, even as an aqueous solution. Facilities with expensive machinery, large stock inventories, and valuable employees simply cannot risk losing everything over choosing the wrong cleaner. Organic and biodegradable formulas are the preferred choice of many manufacturers, for very simple reasons:

Organic solutions are non-flammable. Sometimes all it takes is a slight accident, short lapse in judgment, or basic human error to bring a multi-faceted operation to a screeching halt. Employees are not perfect. That is why OSHA (Occupational Safety and Health Administration) provides specific guidelines to determine what a hazardous workplace environment entails, in order to protect everyone in a manufacturing facility. These rules not only benefit employees, they ease the minds of business owners who cannot even imagine what it would be like to lose productivity in the event of a fire or even worse, losing the life of a hard-working employee over something so easily preventable.
Biodegradable cleaners deteriorate naturally after they are used. Using a biodegradable industrial degreasing product is safer for the environment, as well as more convenient for manufacturers. The common challenges associated with proper disposal of toxic compounds takes time and effort away from daily manufacturing operations. Chemicals that require strict conditions just to throw them away will not only reduce productivity, they directly impact annual business profits. Many toxic compounds actually cost money to throw them away, due to the need to hire a waste management company for careful handling and processing.
Degreasing solvents that are non-corrosive help to avoid losing products and equipment when they simply need to be cleaned. Part of having a routine sanitation policy in place is not only to maintain a safe manufacturing facility for employees, but to extend the life of expensive materials that are used on a daily basis. In addition to metal, rubber and plastic components often play an integral role in factory operations. Toxic cleaning chemicals cause rubber and plastic applications to deteriorate after long periods of exposure, or sometimes instantly eat away at them depending on the strength of the agent being used. To protect your overhead budget, and avoid having to replace equipment more frequently, try an industrial degreasing solution that is designed for heavy-duty cleaning on multiple surfaces.

Understanding your options between degreasing solvents is an essential part of making decisions that will benefit your entire manufacturing facility. Choosing organic, biodegradable, and non-corrosive industrial degreasing formulas protects the environment by reducing the amount of toxins that are released into the air. As if that weren't enough, organic degreasing solvents also lead to safer workplaces for employees, higher levels of quality control, and more effective cost solutions for manufacturers.

Degreasing solvents used throughout the manufacturing industry are compared to organic industrial degreasing products, for business owners to determine which is more beneficial.

Article Source:http://EzineArticles.com/?expert

Selecting High Performance Metal and Electrical Degreasing Solvents

ByTimothy Byron

Degreasing solvents are used to clean surfaces, parts, and equipment within all industries. Due to the higher probability of grease buildup on heavy-duty machinery, the products most relied on are used for metal and electrical applications.

Metal Cleaning

Proper metal cleaning is a crucial part of successful manufacturing. Metal equipment and components are often relied on even more than employees, working non stop throughout the day in a factory. While grease and residue buildup is to be expected, powerful degreasing solvents made to adequately handle the job are not easy to come by. Although high performance cleaners are always made up of chemicals, the specific type of chemicals can vary drastically, and determine the outcome of your sanitation routine. Chlorinated formulas contain a hazardous chemical called Trichloroethane, or TCA. TCA is extremely dangerous to employees in the event they are exposed by inhalation, digestion, or skin contact.

Acting as a central nervous system depressant, TCA induces minor side effects that are similar to alcohol intoxication, as well as more severe symptoms leading to life-threatening conditions. In the best case scenario, an employee operating heavy duty machinery and equipment that is not fully coordinated and aware of their surroundings puts others at risks, and costs companies millions of dollars in damages. You probably wouldn't serve liquor to your workers, so it may be a good idea to find degreasing solvents that are non-toxic and won't impair anyone's judgment. Alternative degreasers that are just as effective in removing heavy-duty buildup are available. N-propyl bromide is a chemical used to replace the hazards of TCA, without compromising performance. When properly stabilized, n-propyl bromide formulas are also compatible with aluminum, brass, titanium, and magnesium, broadening the areas that TCA cannot be safely applied to.

Electrical Cleaning

Electrical equipment is vital for daily operations, making dielectric cleaners a regular product within manufacturing facilities. Due to their level of toxicity when exposed to an employee's skin, dielectric cleaners containing chlorinated chemicals must be used with extreme caution. Protective equipment has to be worn every time the product is used, adding to overhead costs for organizations, increased risk of human error among employees, and an overall loss of productivity to simply sanitize electrical devices. An easier and safer solution is available. Environmentally preferred electrical degreasing solvents contain no chemicals that would prevent employees from using them safely. In addition to eliminating the need for protective gear, preferred dielectric sprays can be used on most plastic and rubber surfaces. Experienced and chemically advanced industrial solvents manufacturers have developed formulas containing high-grade oil distillates, proven strong enough to remove grease, fuel, oil, and carbon wastes from electrical equipment, without threatening employees.

Superior Products

The manufacturing industry is hard-working, powerful, and progressive. Choosing industrial solvents manufacturers with the same level of commitment is the key to finding better quality products for your facility. Look for companies that specifically address the environmental, health, and safety hazards of chlorinated degreasing solvents to provide alternatives that are just as capable of your manufacturing level needs.

Distinct differences between degreasing solvents are explained for buyers to choose between traditional and chemically advanced industrial solvents manufacturers.

Article Source:http://EzineArticles.com/?expert

How Industrial Organic Chemicals Are Used Among All Industries

ByTimothy Byron

Industrial compounds are used within all areas of operation. Whether the job of removing grease, oil, dirt, and other pesky waste buildup requires a moderate or heavy duty product, organic solvents are designed to deliver the results each application needs. Cleaners and degreasers are often made of chlorinated compounds that have now officially been banned for use, are regionally regulated, or are being tested for their negative impact on humans and the ozone layer. Trichloroethane (TCA) is one of a number of chemical compounds that has been guilty of creating hazardous results both by normal use and accidental exposure. Additional bonuses include methods of environmental and employee protection. Learning about toxic alternatives and how they are used within your industry or profession is an effort to improve in ways that were practically inconceivable before. It is common for people to doubt the performance level or overall relevance of environmentally friendly cleaning products. Taking a look at the broad range of industries that currently use and benefit from TCA alternatives may help to address your concerns.

Aerospace

The United States Department of Defense partnered with an industry leading manufacturer to replace chlorinated agents formerly used in burn chambers of their spectrometers. Today, aerospace contractors, major airlines, and even NASA are all on board, using high performance cleaners that are much safer for the environment and everyone that comes in contact with them. In an industry where it is common to use highly flammable and toxic compounds, the aerospace field now has access to a full catalog of alternatives. Polysulfide sealant, hydraulic fluid, wheels and brakes are all safely cleaned with environmentally preferred products in the aerospace field.

Electronics

Environmentally friendly products are used in the electronics industry on a regular basis. Electrical switch gears, circuit boards, fluxes, and panels were all formerly cleaned with hazardous compounds containing Trichloroethane prior to the development of n-Propyl bromide agents.

Manufacturing

Often operating under the control of several employees, the manufacturing industry has embraced organic solvents as a valid replacement of chlorinated agents. Eliminating the risk of toxic exposure allows facilities to focus on productivity, rather than worry about the costly effect of simple human error. Applications that have exceeded the former standard of safety include precision parts, process, surface, and assembly line cleaning.

Military

Mission critical cleaners are used among all branches of the military. Due to the banning of Trichloroethane, government agencies are forced to comply with strict regulations without compromising the strength of chlorinated products. Oil analysis laboratories, oxygen life support equipment, helicopter tubing, and military aircraft construction all require high performance compounds that the military has found among industrial organic chemicals.

Energy and Utilities

The energy and utility industries are often faced with applications that depend on the use of a potent, nuclear grade cleaning formula. Turbines, generators, contacts, relays, and circuit breakers are now maintained with organic solvents to replace chlorinated formulas. Specialized industrial organic chemicals have been created to clean and degrease the critical hard surfaces of power plants.

The use of organic solvents among all industries is explained to help buyers understand the relevance of industrial organic chemicals.

Article Source:http://EzineArticles.com/?expert

Choosing Environmentally Preferred Degreasers for Residential Use

ByTimothy Byron

Although many items are labeled as industrial degreasing products, choosing the best cleaner for your home can be difficult if you need a formula to battle your toughest buildup problems. Several degreasers contain chemicals that are extremely dangerous for industry use, which presents an even bigger risk for families in a residential setting. If you have an issue with grease, oil, or dirt in your home, properly cleaning it should not put the safety and health of your loved ones in jeopardy. Environmentally preferred degreasers are available to clean up your mess appropriately, in addition to keeping your family as safe as possible. Understanding the characteristics of eco-friendly solvents will help you choose a cleaner responsibly.

Just Say No to Butyl

2-Butoxyethanol, or Butyl, is used as the number one chemical in household cleaning agents. Butyl is listed as a hazardous substance by the state of California, and employers throughout the entire nation are required by law to inform employees when they are working with it. Moderate respiratory exposure to butyl often results in irritation of the eyes, nose and throat, which is somewhat common for all household cleaners. However, heavy exposure can lead to hypotension, metabolic acidosis, hemolysis, pulmonary edema and even coma. This sounds like an incredibly high price to pay for trying to keep a clean house. It is also a considerable risk for homes with small children or animals that may accidentally become exposed out of simple curiosity.

Kitchen Fire Drill

Butyl industrial degreasing products are highly flammable. Although grease buildup can easily occur in a garage, shed, or work room, most homeowners experience this in the kitchen. Cooking grease splatters that end up on floors, walls, windows, and appliances throughout kitchens require high performance degreasers that promote a healthy home, not a fire hazard. Household fires are often started in the kitchen due to electric and gas appliances, and adding additional fuel to the fire with a flammable cleaning product heightens the risk. A bottle of butyl cleaner will not melt. It literally explodes.

Clean Smell vs. Chemical Odor

There is a distinct difference between a home that smells clean, and a home that smells like it's been bombed with cleaning chemicals. Due to the popularity of hazardous jugs, bottles, sprays, and wipes, many homeowners now associate an unnatural and foul chemical odor with a sanitized dwelling. Believe it or not, your home will smell even better by using odorless degreasers that will effectively remove waste buildup. Mild and ineffective cleaners simply mask the problem, by preventing you from knowing when the grease is actually gone.

Safer Options

Alternative chemicals are available for both industry and residential use. Butyl industrial degreasing products are not only being rejected by homeowners protecting their families, they are also being replaced by major organizations. N-propyl bromide is the chemical substitute used in degreasers by scientifically advanced and environmentally aware manufacturers. Characteristics of n-propyl bromide cleaning agents include a clear, purple colored, odorless, and water soluble liquid that is perfect for diluting strength for effective residential use. Environmentally preferred degreasers are biodegradable, non-toxic, butyl free, and non-flammable, proving to be the best selection you can make to protect your family, and get rid of grease buildup once and for all.

Toxic properties of industrial degreasing products are explained to homeowners seeking high performance degreasers that are safe for family use.

Article Source:http://EzineArticles.com/?expert

Copper Nail Gun System for Defoliation

We all know that life flourishes during warming periods, therefore, if we really are experiencing a tipping point for climate change, it means that in the future there will be rain forests nearly everywhere, so much life, diversity, and abundance, that we will have to figure out a way to deal with all of that. Okay so, what do we do, use Agent Orange, or round-up on all the increased vegetation, or is there a better answer I ask? Recently, this topic came up at our think tank, so let's discuss all this for a moment shall we?

Have you ever seen that documentary on TV, on the Discovery Channel which begs the question; "What If Humans Vanished Tomorrow?" and the documentary goes on to explain how nature would retake human civilizations, and in 10, 20, 50, or even 100-years there would be hardly any notice that we were even here. Within 1000-years, or 10,000-years, all the skyscrapers would have fallen down, and we wouldn't have anything left to show for our ancient civilizations like the Egyptian pyramids made of stone.

Basically, if global warming gets into a runaway situation, the plant vegetation will grow so fast, it will begin to immediately encroach upon all the cities and towns where humans live. Scenic highways will be overgrown with vegetation, and it will take incredible amounts of manpower to keep the highway clear. There has to be a better way, and here's what I came up with; we use copper nail gun systems for defoliation. We use robotics systems which shoot copper nails into trees, vines, and bushes which are encroaching.

We don't want to use Agent Orange or too much herbicide because that can get into the groundwater, and it will hurt human health. We also do not wish to kill any of the regular plant life which is not affecting us, as all we want to do is keep the roads clear. Perhaps, you are a tree hugger and you don't like this idea, and you will send me a nasty e-mail for even suggesting it. I would submit to you that global warming is false, and we don't have anything to worry about, at least not in the present period.

However, if global warming is real, we are going to have to figure out a way to clear the brush, and keep our civilization from being overrun and overgrown by plant life. Indeed, I hope you will please consider all this and think on it, as it is a future concept topic worthy of note.

Lance Winslow has launched a new provocative series of eBooks on Future Concepts. Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank; http://www.worldthinktank.net

Article Source:http://EzineArticles.com/?expert

Above Ground Coal Steam Generation Scheme Considered

This whole concept of fracking for oil, natural gas, or even extracting lithium via geothermal schemes seems to be a great way to unlock quite a bit of energy potential and take advantage of our natural resources in a highly efficient way. Now then, what if we jammed a pipe system into above ground coal deposits, and pushed it along, as it let more coal into a hot chamber?

The pipe would wiggle its way through the coal deposits and we would keep it lit generating heat, and adding water to make steam. We could use that steam to run generators to make electricity. Okay so, this makes sense, and it would be a good way to generate energy, so let me explain this further.

Since we would be burning the coal in an underground and closed environment, it would be extremely easy to capture the CO2 which was generated. We can use the CO2 for making carbon nano-tube structures, such as carbon composite wings and fuselages for aircraft, trains, ships, and building materials. Perhaps even car bodies, truck bodies, and buses too.

Another thought is to simply take some coal, spread it out over the ground, put a carbon nano-tube bag over it with holes in it, just like a kitchen noodle bowl, and burn what you needed collecting the excess CO2, and allow another carbon nano-tube sheet to lay over the top sandwiched between a third.

As the center sheet vibrated against dome shaped bag or first cover, and the third cover with no holes in it, this would produce friction and create energy. Copper atoms could be put between the carbon nano-tubes during the manufacturing process, and this would cause the excitement of those atoms inside to increase the amount of energy generated.

Such designs would be simple to control, use, and capture the CO2 emissions while trapping in the heat and steam to generate energy. In the secondary scheme, the vibrations of the structure itself would create a second round of energy. This would make it extremely efficient and wasting very little in the energy conversion process. Why don't we take this science of fracking to the next level, why don't we simplify energy generation, with new innovative technologies?

Further, I ask; why can't we just keep it simple, and therefore simply keeping it efficient. Indeed, if you have eco-innovations, ideas, or theories on how to generate more energy for our civilization, and do it in an environmentally friendly manner then by all means let's talk. Indeed I hope you will please consider all this and think on it.

Lance Winslow has launched a new provocative series of eBooks on Future Concepts. Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank; http://www.worldthinktank.net

Article Source:http://EzineArticles.com/?expert

Mico-Logica Alters Our Perception of the Magic of Mushrooms in Oaxaca, Mexico

When we think of mushrooms and the southern Mexico state of Oaxaca, the first thing which traditionally comes to mind is María Sabina, Huautla de Jiménez and hallucinogenic "magic" mushrooms. But slowly that's all changing as a result of the groundbreaking work of Josefina Jiménez and Johann Mathieu in mycology, through their company, Mico-lógica.

Based in the village of Benito Juárez, located in Oaxaca's Ixtlán district (more commonly known as the Sierra Norte, the state's main ecotourism region), Mico-lógica's mission is threefold: to train both Mexicans and visitors to the country in the low-cost cultivation of a variety of mushroom species; to educate about the medicinal, nutritional and environmental (sustainable) value of mushrooms; and to conduct ongoing research regarding optimum climatic regions and the diversity of substrata for mushroom culture.

The French-born Mathieu moved to Mexico, and in fact to Huautla de Jiménez, in 2005. "Yes, coming all the way to Mexico from France to pursue my interest in mushrooms seems like a long way to travel," Mathieu explained in a recent interview in Oaxaca. "But there really wasn't much of an opportunity to conduct studies and grow a business in Western Europe," he continues, "since reverence for mushrooms had been all but completely eradicated by The Church over the course of centuries; and I learned that Mexico still maintains a respect and appreciation for the medicinal and nutritional value of hongos. Mexico is far from mycophobic."

Huautla de Jiménez is more than a five hour drive from the closest metropolitan center. Accordingly, Mathieu eventually realized that staying in Huautla, while holding an historic allure and being in a geographic region conducive to working with mushrooms, would hinder his efforts to grow a business and cultivate widespread interest in learning about fungi. Mathieu became cognizant of the burgeoning reputation of Oaxaca's ecotourism communities of the Sierra Norte, and indeed the Feria Regional de Hongos Silvestres (regional wild mushroom festival), held annually in Cuahimoloyas.

Mathieu met Josefina Jiménez at the summertime weekend mushroom event. Jiménez had moved to Oaxaca from hometown Mexico City in 2002. The two shared similar interests; Jiménez had studied agronomy, and for close to a decade had been working with sustainable agriculture projects in rural farming communities in the Huasteca Potosina region of San Luis Potosí, the mountains of Guerrero and the coast of Chiapas. Mathieu and Jiménez became business, and then life partners in Benito Juárez.

Mathieu and Jiménez are concentrating on three mushroom species in their hands-on seminars; oyster (seta), shitake and reishi. Their one-day workshops are for oyster mushrooms, and two-day clinics for the latter two species of fungus. "With reishi, and to a lesser extent shitake, we're also teaching a fair bit about the medicinal uses of mushrooms, so more time is required," says Mathieu, "and with oyster mushrooms it's predominantly

The Environmentally Friendly Lanyard

ByPeter Long

Recycle, reuse and renew. These are three of the words that are frequently heard when it comes to the environment. People all over the planet are taking these words seriously and the companies which produce lanyards are also taking these words to heart. They are finding new and innovative ways to make their product more environmentally friendly. One way that they are doing this is by using materials which are "green."

There are a number of fabrics that are made from crops. Cotton and bamboo are two exceptional examples of these. Cotton is a plant which has been grown and harvested for centuries. It is a renewable resource. Cotton plants are commercially grown in a number of different countries. The balls are picked from the plant, and then they are spun into yarn. Cotton can either be pure, or it can be blended with other fabrics. It is easy to wash and clean.

Bamboo is another plant that can be harvested and made into cloth. If you have never seen anything made of bamboo cloth, you will be surprised. The cloth which is made is actually soft and durable. The bamboo plant is one of the fastest growing plants on the planet which makes t ideal for commercial use. Furthermore, the plant itself is extremely resilient to all kinds of pests. This means that it can be grown commercially without the need for harsh chemicals. Once the plant is of an adequate size, it is cut down and mashed. The pulp is then processed and spun into yarn. Bamboo cloth can either be pure or can be blended with cotton or similar materials.

Satin is another fabric, which comes from silk, which is also a renewable material. Silk comes from silk worms, which are commercially farmed. Silk farming is an industry that has been around for hundreds of years.

Although lanyards last for years, there may come a time when you do have to get rid of your old ones. Lanyards that are produced using any of these three fabrics are biodegradable. One of the biggest factors concerning the environment is the amount of garbage in the landfills, fortunately lanyards will not add to this growing issue. Alternatively, you could have your old lanyard recycled as these three materials are completely recyclable as well.

When you are investigating buying custom lanyards, you might want to think about getting ones that are environmentally friendly. This is not only good for the environment, but it shows your customers that you and your company are supporting products that are "green."

For more information about Green lanyards or to order CLICK HERE

An Overview of Project Planning

ByRaji P Palanivel

One approach would be to go through each of the steps in the Step Wise framework, identifying the products created. You might end with something like this.

0. Select project: feasibility report
1. Identify project scope and objectives Terms of reference
2. Identify project infrastructure Standards, procedures relating to progress reporting, change control etc
3. Analyze project characteristics Technical plan, risk register
4. Identify the products and activities Product breakdown structure, product descriptions, product flow diagrams, 'ideal' activity network
5. Estimate effort for each activity Schedule of task durations and costs
6. Identify activity risks. Updated schedule of task durations and costs, updated risk register
7. Allocate resources Gantt chart
8. Review publicize plan: Publicized plan
9. Lower level planning: Detailed plans

A second approach might be to take the contents of the plan document and treat each sub-section as a product in its own right.

Discussion points might include:

Sometimes a product could be an updated version of some existing product. Planning in some way is a particular type of design process, you will often have to go back and modify things you have already created. This leads to the need for having points when products are baseline i.e., when they can no longer be changed without a formal management process being adhered to.

What products must exist before the activity test program can take place. What products does this activity. These seemingly straightforward questions get students to think about what is really involved in the testing process.

One question that may arise is what is meant by program testing. Does it include the process of error diagnosis, correction and retesting the program. When you are allocating time and resources to this in a project, then the answer is probably yes. If so then a wider range of products could be identified example corrected software, change requests, off-specification.

An employee of a training organization has the task of creating case study exercises and solutions for training course which teaches a new systems analysis and design method. The person's work plan has a three-week task learn new method. A colleague suggests that this is unsatisfactory as a task as there is no concrete deliverable or products from the activity.

In order to carry out usability tests for a new word processing package, the software has to be written and debugged. User instructions have to be available describing how the package is to be used. These have to be scrutinized in order to plan and design the tests. Subjects who will use the package in the tests will need to be selected.

As part of this selection process, they will have to complete a questionnaire giving details of their past experience of, and training in, typing and using word processing packages. The subjects will carry out the required tasks using the word processing package. The tasks will be timed and any problems the subjects encounter with the package will be noted.

After the test, the subjects will complete another questionnaire about what they felt about the package. All the data from the tests will be analyzed and a report containing recommendations for changes to the package will be drawn up. Because the Product Flow Diagram is often the product of a subjective process, it is always worth getting the person drafting the Product Flow Diagram to write down a rationale for the particular sequence of activities.

The training plan will outline the structure of the course with rough timings for the major topics. This will has to be agreed with the client. The plan presumes that the training provider uses the design of the overheads as a preliminary step in the detailed design of the course.

The overheads are then complemented by training notes and exercises. The manual brings these together into a package for the trainees. The number of trainees must be known before the material is printed so that we know how many copies to make.

I'm Raji. I completed in engineering degree. Now I'm working in software company from Bangalore.

Article Source:http://EzineArticles.com/?expert

How Much Methane Do Cattle Produce?

ByMichael Lister

Methane is a greenhouse gas that is approximately 21 times more potent than carbon dioxide. Methane is produced both naturally and through man-made processes. Most commonly associated with farting cows (it's actually burping cows) methane is also produced by industrial processes, termites, from landfill, rice growing and fossil fuel use.

But how much methane do cattle produce in Australia? The current National Greenhouse Gas Inventory calculates that 15% of the national inventory is from agriculture, of which 66% is from livestock digestion (mainly from cattle and sheep). These calculations are based on modelling and averages. The modelling for the national inventory can be updated as research reveals more accurate data for the models.

Recent research by Ed Charmley from CSIRO has found that northern cattle in Australia produce 30% less methane than previously thought. The CSIRO research is currently being reviewed for use in the next inventory and could mean that the Australian livestock industry's impact is revised to be lower than previously thought. These figures are still averaged across the northern herd and it's extremely unlikely that there will ever be a system to measure methane produced from cattle at a local level due to the complexities and costs associated with methane measurement.

How is methane from cows measured?

Methane gas measurement from livestock is a relatively new science and as such reliable methods and data are not yet available. The science is continually evolving and as more research is completed, the data becomes more and more reliable.

Measuring methane in controlled environments, like closed chambers in a lab is now at a stage that the data is quite reliable. However, measuring cattle and sheep in a lab is not an accurate measurement, as the animals are not behaving how they do in a field and as such the data is not a true reflection of animals' methane production.

To measure how much methane animals produce that are grazing, a variety of technologies have been trialled and used in recent years. To date the most effective method of measuring methane produced by cattle in field is an open-path fourier transformer infrared laser or FTIR. The FTIR operates by sending an infrared beam across a paddock, adjacent to and downwind from the grazing animals. The beam is reflected by a mirror back to the instrument.

To get an accurate reading a small gas canister which releases a tracer gas at a known rate is attached to the animals, and the instrument measures the amount of both the tracer gas and the methane from the animals simultaneously in the air between the instrument and the mirror to determine the amount of methane released from the animals.

The FTIR is the measuring instrument that was used by CSIRO for the study that found the northern herd produces 30% less methane than previously thought and is also being used at three other test sites across the country that are being used to quantify methane production and also demonstrate some of the research Australian agricultural scientists are undertaking to find ways to reduce methane production from cattle and sheep.

Methane levels on the average Australian farm have stayed relatively stable despite increases in livestock number nationally. To find out more information please visit http://www.redmeatgreenfacts.com.au

Article Source:http://EzineArticles.com/?expert

Fairtrade - Delivering Much More Than the Right Price to Makers and Sellers

Fairtrade has slowly but surely gone mainstream over the past few years. And it delivers much more than a fair price to the makers and sellers who benefit from it. It's one of those rare concepts that is a genuine force for the common good, benefiting everyone involved right down the line. Here's how spending your hard-earned cash on fairtrade giftsand household goods helps make life better for all sorts of people. Yourself included.

In the bad old days a small business making, say, hand carved wooden bowls might have been paid peanuts by retail buyers. As a result they'd struggle constantly to keep their heads above water. Things like health and safety, employee welfare, good working conditions and decent wages would be way out of reach. So workers would struggle too, unable to provide quality food, basic education and comfortable, clean living conditions for their families. Life without the basics is pretty miserable for everyone concerned. The only winners were the big businesses who passed rock bottom prices on to us, and the end consumers who got great stuff for next to nothing.

These days there's an increasingly brisk trade in fair trade gifts, household items and everyday goods. Because makers and suppliers get a fair price for their goods they can improve manufacturing facilities, take safety and employee welfare into account and paying their people a decent living wage. So workers can feed their families properly, send their children to school and aspire to a better, more comfortable, safer future.

Fair trade ultimately delivers much more than better wages. Its effect cascades right through the chain. Yes, retail buyers have to spend a bit more to supply us with unusual, exciting products. And we sometimes have to spend a little more on them. But the more of us choose ethical goods, the more good we do. The more good we do, the better we feel about ourselves. The more of us engage with ethical shopping the bigger the demand, the lower the variable production costs and the lower the high street price.

As a fairtrade consumer you're doing your bit to drive a unique economic engine that's changing thousands - if not millions - of lives for the better, forever. The more of us buy fairly, the nicer life gets for more people. It's a trend that's worth joining. So hop on the ethical bandwagon and help spread the love!

You can find a great selection of fairtrade gifts at Green Tulip. Use the handy gift finder to quickly locate the ideal gift.

Article Source:http://EzineArticles.com/?expert

Are Universities Researching Green Tech Milking the System for Multiyear Projects and Funding?

Well, I'm certainly not against green tech or alternative energy technologies, not in the least. Indeed, I believe that anytime you can do something more efficiently, and with less pollution it's a good thing. However, we've all heard that there can be too much of a good thing, and I believe that is happening now with the funding, subsidizing, and massive amounts of research dollars pouring into green technologies.

Worse, it appears that many University Research Departments are completely milking the system, and working for multiyear projects and continued funding, hoping it will go on indefinitely. The reality is it can't, we can't afford to keep funding research without breakthroughs. Often I will quiz a university researcher working on some sort of alternative energy project, and I'll ask him or her a question - they will tell me that they don't know the answer and they've never thought of that question, and that their funding is for a specific aspect of their research. I see this as an excuse.

As an entrepreneur this bothers me very much because I know if I want to stay in business and run my company, and not get broadsided by regulatory changes, or changes in the marketplace or with the competition for that matter, that I must know every single possible detail, and be able to answer every single question at the drop of a hat. If I can't do that, I will not succeed in the long run, and quite frankly I wouldn't be good enough to do what I'm doing.

It is hard for me to imagine that we don't hold academia and are university researchers to the same high standard as the marketplace holds entrepreneur's feet to the fire. In fact, maybe university researchers need more leeway to ask more questions, or they need to start thinking more like entrepreneurs, and take more notes, and learn more about their subject matter. The way I see it is if someone that knows nothing about their research, someone like me, can ask the question that they've never thought of, even though they spent 10 years researching that micro-niche in the scientific community, then something is wrong.

In fact, it seems to me that something is so wrong, that perhaps it shouldn't be my tax dollars paying for it. I am all for pure research, but I'd also like some results, and I want the very best researchers money can buy, not folks that are just trying to soak up money without performance. In the free marketplace if you don't perform you are out a business, and you go bankrupt. Entrepreneurs are therefore held to a higher standard, and forced to compete and perform. Shouldn't we expect the same from our university research departments? I think we should.

Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank. Lance Winslow believes writing 23,850 articles by July 4, 2011 is going to be difficult because all the letters on his keyboard are now worn off now..

Article Source:http://EzineArticles.com/?expert

The Ability to Recycle Carbon Composites is Paramount to Our Future

In Europe, they have the end of life program for all of their vehicles. That is to say when you buy a car you have to put down a deposit, which is added into the price of the car, the money is to pay for its end-of-life experience, so it can be broken down and recycled. The money that you paid extra when you bought the car is then given to the recycler who receives the car, from that rotating fund. In the future we will be challenged with the problematic situation that the cars will have more foam, and carbon composites which make them up.

Recycling foam which is behind the dashboard and in other parts of the car is rather tough. Just as recycling tires with steel belts inside is tough because it's hard to separate the steel from inside the rubber in order to recycle both. Carbon composites by their very name, are composite structures, and before you can recycle them, you need to pull them apart. Multiple types of composites with carbon sheets are difficult to repurpose and recycle.

Then there is the issue with aircraft, and more & more aircraft these days are being built with carbon composite components. This makes the aircraft lighter so they get better fuel economy, but what do you do with the aircraft carbon component parts once the aircraft has reached its useful life. Just as metal fatigues, carbon goes through stresses, and it doesn't last forever. Anyone who has a high-speed carbon composite framed bicycle knows this.

Net Composites posted on June 27, 2011 titled "GKN Aerospace to Recycle Carbon Waste" which stated that the purpose of the project is;

"To balance the performance and environmental gains achieved through using composites in aircraft operations it is vital the industry progresses towards greener manufacture on a number of fronts and we believe an effective recycling process is at the heart of that progression. Until now, the only solutions for disposing of Carbon Fibre Reinforced Plastic (CFRP) waste have been landfill or incineration, both of which are harmful to the environment."

This is absolutely wonderful news. It is something the United States needs to do more of. Because if these carbon constructed materials are our future, we need to be able to break them down, and make them into something else. That only makes sense. In the future, especially after the Obama Administration unilaterally decided that every car needs to get 52.5 miles per gallon on average, automobiles will be made of these carbon sheets.

If we start making all of our automobiles out of these types of materials, we have to be able to do something with those car bodies, frames, and other carbon component pieces when they end their useful life. Indeed I hope you will please consider all this and think on it.

Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank. Lance Winslow believes writing 23,850 articles by July 4, 2011 is going to be difficult because all the letters on his keyboard are now worn off now..

Article Source:http://EzineArticles.com/?expert

Exploring Hydropower As One of the Best Energy Alternatives

ByMick Lancaster

Hydropower is known as the energy source that allows it possible to create electricity without the use of fossil fuels. Transforming the energy created by the movement of water into usable energy seems to be an excellent idea. The source of the hydropower energy is of course water which is obviously a very abundant source. Throughout history humans have utilised water's energy in various ways in order to benefit from its features. As technology has progressed over time capturing the full potential of water's power is becoming a widely more popular and feasible option.

In the near future it is predicted that hydropower will become a more popular form of harnessing energy from water. The advantages of hydropower systems are seemingly obvious. Once they are built the energy that is formed is inexpensive and clean when compared with other power sources. And when you look at the actual amount of pollution produced by hydropower it is very minimal.

Modern society already widely uses water to power hydroelectric turbines. Tidal energy is also utilised and is indeed a reliable source of energy. However, the construction charges for the equipment and labour that is needed in order to harness this energy can be very costly, and can actually be detrimental to life across our water systems. It is definitely clear that hydropower is a smart option for a future reliable energy source, especially within countries that utilise their coastal regions. Problems that are linked with other forms of energy will always ensure that one of the most ancient power sources will linger and will continue to be exploited for years to come. All hydropower utilises is gravity and the natural current of water. If we delve deeper into the construction and use of this energy source we find that it does have its fair share of disadvantages as well.

For instance, the natural environment that fish inhabit is likely to be disturbed or altered in some way. Their surrounding habitats in which they thrive are established based on the optimum water level and the speed of water. This also provides the fish or aquatic life with their food sources. The drainage or disturbance these types of environments would endure in order to create dams or reservoirs to provide hydropower would essentially lead to great destruction of the habitat. Fish will be affected in numerous different ways subject to their size or species. We still have many fantastic waterways with thriving fish colonies due to the unspoiled conditions. The more you actually examine the environmental impact that hydropower may cause in the future if implemented on a bigger scale the more concerned fisheries and conservationists will become.

The Salmon & Trout Association: influencing national decision makers over the management and protection of salmon, trout and sea trout and raising concerns about Hydropower and other important issues.

Article Source:http://EzineArticles.com/?expert

Making Lake Water Management Technology Work For You

Every contaminated lake is worth saving, every clean lake is worth protecting. It doesn't have to be your usual tourist spot to deserve attention because some of these lakes support a variety of wildlife like birds, tortoises and other fauna-all of which help maintain the balance of nature. One such place is Tomato Lake in the City of Belmont, Western Australia.

The lake, a seven-hectare wetland protected by the Department of Environment and Conservation's Environmental Protection Policy, is home to the blue-billed duck, long-neck tortoises and other wildlife.

People who want to feel closer to nature and get away from the city go to the park. There, they can spend quality time with their family, enjoy barbecue with friends or give oneself a break from the pressure of city-living.

But even sanctuaries like these, protected as they are, cannot be enjoyed without some sort of care. If left unmanaged, problems can still occur. One of the most common problems of lake waters is algal blooms. Algal bloom is the proliferation of algae in the water due to excess nutrients or warm weather. It's not just smelly or unsightly-it can also produce toxins which can affect the health of animals and humans.

To stop further proliferation of algae and improve the quality of water, the City of Belmont installed two water aerators at Tomato Lake. Do these water aerators really work? How does this lake water management mechanism operate?

Water Aeration Through AirDucks

When air is introduced into the lake, the oxygen-content in the air is transferred into water, making it fit for fish and other aquatic organisms to live in. Natural aeration (strong breeze that can make the surface of the water move) can happen. However, this would not be sufficient to aerate the bottom of the water.

In Tomato Lake, two aerators were installed, each aerator consisting of three 4-kilowatt AirDuck nozzles with airlines. These lines are connected to a pump that injects as much as 3600 litres of air into the bottom of the lake.

And although it operates for 12 hours a day, this new technology does not require a high maintenance nor does it result to high power costs.

Making It Happen

Although aeration is not the cure-all for every water-related issue, it does provide a host of benefits when utilized. Some of these include the reduction of unpleasant odour, proliferation of blue-green algae and excess nutrients, the improvement of water clarity and generally, the improvement of the quality of lake waters.

Using such a technology may not have a big impact in helping the environment cope up with humanities mess as a whole, but it is a concrete step towards that direction, especially when done collectively.

Article Source:http://EzineArticles.com/?expert

Will the Nuclear Disaster in Japan Help Spur Green Job Growth?

The devastating earthquake that hit Japan in March of 2011, has had terrible consequences for those whose lives have been turned upside down by the damage and devastation. Unfortunately, it's hard to predict earthquakes and natural disasters - it is even more difficult to predict the outcomes of these events until it is much too late. Although nuclear power technology is generally accepted as safe and necessary all over the world, the earthquake in Japan has strengthened the call by environmentalists and green lobbyists for more innovation and investment into green technology alternatives. And when you consider the ever-rising cost of oil, it is fair to predict that career opportunities in the field alternative energy and sustainable design will continue to grow steadily over the next 20 years.

All these things factor into this one question for those who are looking to join the job market, "Is a "green" career right for you?"

The answer may be simpler than you think and according to Greenjobready.com, it all comes down to finding a career in green technology that is a good match with your skills and abilities. If you are good with your hands, then you might be interested in becoming a wind turbine technician or a construction worker who specializes installing solar panels could be the right path for you. Maybe you have an interest in architecture or design and would like to develop environmentally friendly buildings and structures. If your strengths are in the creative arts - writing or graphic design, for example - then you might enjoy working in the marketing department of a green technology company or creating green information propaganda to word out there about innovations and trends in the green sector. There are more than 7,000 jobs available right now on green job boards across the internet.

Some other green jobs include work in: urban planning, product design; waste prevention strategies; sustainable landscape and garden design; green furniture building; heating, venting, and air conditioning technician (HVAC); or eco-fashion.

There are many colleges that have programs designed to prepare students to thrive in businesses whose mission is to promote environmentally friendly and energy-efficient products. If you are thinking about going back to school, consider degree programs that could play a role in the green revolution.

If a green career sounds like something you might be interested in. Go to a college search website today to find all of your options. You can search for colleges or schools by state, zip, or degree and are the most complete guide to the nations colleges, universities and online degrees.

US College Search has a wealth of resources for those entering the college search or to help you find an online college.

Article Source:http://EzineArticles.com/?expert

Human Based Energy Generation Power System - Potential Power Device

There are some human religions where people bow and pray several times a day to their God. What many people may not understand is this is also actually pretty good exercise. Now then, with a slight modification of this type of action and they could actually produce energy, and then store that energy could be stored perhaps in little battery packs to power up personal tech devices such as iPhones and smart phones, or even a new iPad HD, which will come out later this year.

Perhaps you have seen those shakable flashlights that harness the energy produced by electromagnetic induction. And perhaps you've seen in the personal tech news the backpacks which create energy from the bouncing up and down of a hiker as they walk. Well then, consider this, if someone is bowing and praying there is substantial movement there, and with just a little bit of resistance we could create energy. And why would we waste the energy being produced?

You see, the humans that involve themselves in this activity must eat food and therefore their bodies have the energy to do the bowing and praying. Why waste that energy, I'm sure their God wouldn't want them to waste energy, therefore it could be used for dual purposes; one, for paying tribute to their God, and the other for producing energy to power up their communication devices. In fact, I know of one religion where they bowing pray eight times per day, this is enough to keep a smart phone fully charged all day long, every day.

Why wouldn't we figure out a way to help them do this? And if you consider how many religions bow and pray, or involve themselves in dance, and celebratory ergo dynamic movements, we might be able to power up half of the word, at least their online personal tech devices, and cross the digital divide for good.

Now then, I propose that we slightly modified the bowing motion, to include a standup motion in between each bow, perhaps even modify it to look like a "Burpee-Type" exercise type situation, then all we'd have to do is have the religious worshiping participant wear a special belt, which could harvest the energy on a spring system attached to their feet, something like a long bungee cord, or it could be incorporated into their trousers or even a robe-retrofitted device, in fact, it could work very well inside of a robe too.

It would seem like a good idea, and it might also prevent diabetes, improve health, and that would create a positive attitude, along with the important traditions of the culture and religion, as well as a tribute to their God. I can't think of a better thing to do to solve so many issues all at one time. Indeed I hope and pray that you will please consider this and save that energy for a positive and energetic cause. If you have any other great ideas to harvest human energy please shoot me an e-mail.

Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank. Lance Winslow believes writing 24,000 articles by July 24, 2011 is going to be difficult because all the letters on his keyboard are now worn off now..

Article Source:http://EzineArticles.com/?expert

Methods for Saving Water Supply When Doing Mobile Onsite Detailing

If you own a mobile on-site detailing operation, then chances are you have a truck or a trailer with a plastic water tank inside. Perhaps it is 100 gallon or 150 gallon loaf tank and it has to get you through the day. If you have to stop and get water and refill, this will take precious time out of your day, or cause you to go back to another location, meaning you will spend more time driving in traffic, and a lot more fuel.

Of course, you could get a bigger tank, but the more water you carry, the more dangerous it is when you're driving due to the extra weight, and the worse gas mileage you will get, and at four dollars per gallon that's not something you need right now in your operating budget. This brings me to another issue. Last year, I was having a conversation with someone and Southwest Florida about their automotive detailing business.

They told me that they were going to add another rig because they had a lot of business, but they were trying to decide if they should go with dry wash, or another mobile washing rig which used water and a pressure washer to clean the vehicles. Yes, they too were having a drought in the area. It is not just the Southwest side of Florida, all of Florida is having challenges with water shortages and droughts. The citizens are quite concerned, so when they see a business using water, if they see too much runoff, they get upset.

Recently I read an interesting piece on the issue of water scarcity article in the Wall Street Journal titled "Big Water Users Get Flak in Drought - Calls for Surcharges as Vast Amounts Consumed by Wealthy Palm Beach Residents Draw Ire of Neighbors" by Arian Campo-Flores (published on July 11, 2011). The article discussed the local code enforcement and water police, along with the municipal regulations on water use. Interestingly enough, prior to retirement I encountered these challenges in cities across the country.

Now then, how do you clean cars without using very much water if you are using a pressure washer? Well, what I recommend is that you spray the car for about 40 seconds at 1200 PSI using a 45-degree tip and get it wet, then soap the car, without trying to create too much suds, and then rinse the car with a 25-degree tip 2200 PSI, blasting the water away. It should take you between 20 and 30 seconds to rinse. If you are using a pressure washer which only puts out 2.2 gallons of water per minute, then you only have 1 minute worth of spraying time, therefore you will be well under 3 gallons of water for each car that you wash.

This means there won't be much runoff because the water will be spread around the car, and it will look like you are conserving water by passersby. And the reason it will look as if you are saving water - is because you actually are. Indeed I hope you will please consider all this and think on it.

Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank. Lance Winslow believes writing 24,000 articles by July 24, 2011 is going to be difficult because all the letters on his keyboard are now worn off now.

Article Source:http://EzineArticles.com/?expert

Eco-Friendly - When Will the UK Take the Worlds Lead?

The city of Mysore in India is another city embracing the concept of eco-friendly by fixing a minimum price for plastic bags with 40 micron thickness. Retailers are also banned from giving consumers free plastic carrier bags, in a bid to rid the city of plastic waste whilst encouraging the citizens to become more eco-friendly.

Due to Gordon Brown's cow tailing to supermarkets and not introducing a tax on carrier bags, UK citizens are now far from being eco-friendly compared to their Irish counterparts, let alone the rest of the world. In fact the number of bags used by each person in the UK has started to rise again to 7.7 per month, whereas Irelands is just 2!

Until the government force the retailers to charge for carrier bags, the British public will continue to take bags. Unfortunately people think they are being eco-friendly by re-using the bags in their household bins or popping them in the recycling bins at the supermarkets. But it does not matter how many times the bags are reused they will still be here in over a 1000 years. The only eco-friendly way to use a plastic bag is not to use them. If the UK government haven't even got the bottle to force retailers to charge for carrier bags, will they ever ban them?

The UK is falling behind the rest of the world. Rwanda and Eritrea banned plastic bags years ago, which started a ripple effect across Africa with other countries following their lead and banning all bags. China which used 3 billion bags a DAY yes you did read that right, in fact the country used 37 million barrels of oil a year just to make bags that they consume. Thankfully they have now stopped shops from giving away the bags encouraging the population to become more eco-friendly.

I will now digress into my biggest pet hate, yes bigger than seeing all verges covered in discarded bags from multi-national companies who show no corporate responsibility and utter contempt for the beautiful country to which we are temporary guardians. Dog owners! Not all dog owners of course, but the ones who pick up their pets mess in a plastic bag and then discard the bag on the floor or even worse fling the bag into trees. I struggle with the reasoning of having the responsibility of cleaning up after your dog (even if it is in a plastic bag preserving the mess for a millennium) to then throw the bag and mess into the nearest tree.

We need a call to action that the only plastic bags that are produced are degradable and for the government to follow the lead of other countries and implement a blanket ban on giving out bags. This is the only way to encourage an eco-friendly UK.

I have found a company that sells 100% degradable bags they also supply over 950 eco-friendly products, a one stop shop for all things eco. You can find them at http://www.ecolivingproducts.co.uk.

Rebecca http://www.ecolivingproducts.blogspot.com

Article Source:http://EzineArticles.com/?expert

Rethinking Waste Management

Growing up, I had to clean my plate. My mother would tell me not to waste food. I even remember reading a story about a grown woman who was angry for being told the same thing and that there were starving children on the other side of the world. Why was all of this guilt fed with every spoonful? Were we being taught responsibility? Or, was there something deeper at issue?

Does our attitude about waste have any bearing on our attitudes about economy? I think it does. My parents were always concerned about the cost of replacing what was wasted. From them, I learned how to ask whether or not we could afford to pay for what I wanted. For me, it was orange juice. I always wanted to have a large glass of orange juice with my breakfast, but in a family with five children, I was lucky to get a small restaurant size.

In looking forward to this big treat of a small glass of orange juice, I learned to be a good steward of what I had, but more notably, I learned to expect little things and to be jealous of those who had more than I had. I learned envy and I whopping big lesson in judging others for having too much or for not working hard enough to get more. Worse, I learned to judge myself harshly for not effectively participating in this economy.

In economics class, I was taught that economics was the management and distribution of scarce resources. We were taught to focus on management and distribution, not the fact that scarcity was a presupposition? It was generally assumed that since there would not be any more land created, owning land was crucial to managing and distributing scarce resources.

If, however, economics were based upon abundance instead of scarcity, could, then, waste become a tolerable thing? Would it be okay to leave food on my plate if management or say "mismanagement" of resources did not spark a quest to conquer peoples for land, thus thrusting them into poverty and starvation?

Let us dismiss this notion that Mother Earth will not have any more land. Volcanoes make new land all of the time by spewing out lava. So land cannot be the issue. What is at issue is that everything that we use is provided for by the earth. Does the earth function based upon scarcity? Not usually. Usually there is an overabundance.

There is an ancient African proverb, "from one seed comes many." Take a seed from a persimmon tree -- a good example because there happens to be one across the street from my house. One seed produces one tree which produces more fruit than any fool would care to count. From those seeds there is the potential for orchards and orchards. With this understanding, it is easy to see that scarcity may be one hugely false premise?

Let us now say that economics is the management and distribution of abundant resources. When I go into the produce department of a grocery store, I now see abundance? I have taken off the blinders of whether or not I can pay for what is there. Fruit and vegetables are abundant in supermarkets so this notion of scarcity is really all about the ability to pay the owners of the abundance, produced by Mother Earth -- owners who limit supply by manipulating prices. We work, earn money to feed a notion of ownership that is based upon a false premise of scarcity, devaluing the quality of our lives with envy, greed, jealousy, judgment, self-recriminations and much more.

Additionally, I want to revisit the persimmon tree. I observed the tree from its production of summer fruit to its fall balding. Most noticeably was the vast amount of decaying fruit spread around on the ground. If I had left that much food behind, my mother would have scolded me, but Mother Earth teaches a different lesson. She very efficiently uses the fruit, seeds and leaves as fertilizer for the tree, ensuring that there will be fruit for the next growing season. What affect on our perception of economy would take place if we used such effective waste management? How would it affect greed, envy, jealousy, judgment and all of those other negative emotions and actions?

The guilt taught to us when seeing leftover food piled high on our plates is easily transferred to land fields and city dumps, but both ancient and modern technologies can be used to eliminate much of this waste and guilt. What is so wonderful about it is that the techniques yield byproducts of reusable energy, namely methane gas which can be used to run diesel engines, oil, hot water and fertilizer so rich that food can be grown from it in abundant proportions on arid land. When you do not have to worry about waste, what doors open to you?

Would children be forced to develop guilt complexes that could spill over into other areas of their lives? What if they knew they could not only grow more food than they could eat, but that the leftover food could be transformed into fuel for a car or generator that could run the electrical systems of the house? What if there were even more efficient systems that yielded even more efficient reusable energy? Say zero point energy (another story)?

Perhaps all economic problems will not be solved by more efficient waste management, but even if the only lesson is just to show that economics is not about scarcity, but about who gets to control abundant resources, think of the industries that would be affected: utilities, fuel, food markets. These are the basic necessities of life that others control for us. What if we could control these resources for ourselves with miniaturized versions of these energy transformation systems?

Would we redefine wealth and prosperity? Would we be steps closer to eliminating poverty and crime? Now, that really is food for thought.

Thank you for reading my article. Now, please watch my YouTube video The Happiness Tree in which I read the folktale I wrote based upon the ancient African proverb, "from one seed comes many." Also, see videos on more efficient waste management and more efficient food production.

(c) Copyright - Pamela Hamilton. All Rights Reserved Worldwide.

Article Source:http://EzineArticles.com/?expert

Prevent Illnesses in School children by Putting Portable Sinks in Every Classroom

ByRudy Moore

Wherever you go, the existence of germs is something that you cannot avoid. Places that are usually crowded with many people often pose the highest risks for spread of infection and disease. As for your kids, the school is among one of the crowded areas that they are staying. With so many kids around some of whom can be coughing, sneezing and bearing allergies, it becomes very easy for young schoolchildren to become ill. However, there is one sure way to prevent illnesses in these kids and this is by putting portable sinks for every classroom.

If you're wondering how mobile sinks can help, well, it's only fairly simple. Schoolchildren can use them to wash their hands. Handwashing is by far one of the most effective and simplest ways to help prevent the spread of germs. Children are not that conscious about their health. They always need to be reminded to sanitize their hands and fingers. If there are no portable sinks which they can see right away, they easily forget that they should be washing their hands before eating their snacks or after sneezing unto them.

In schools, it only takes one child to infect some or all of his or her classmates in the classroom. The sick child attends school and can come in sneezing and coughing. Being little children that he or she is, it's not the handkerchief that is used to cover the mouth. Rather, it is the hands that are typically used. With droplets full of viruses and bacteria sticking to those little hands, wiping them to the sides of the skirts or the pants doesn't kill the viruses away. They remain in there and can be potentially transferred to other schoolchildren by simply touching the doorknobs, books and table surfaces in the room.

Some kids who may be suffering from stomach aches and diarrhea can use the toilet and go back to the classroom without washing his or her hands. The likelihood of someone getting infected by the same condition is predominantly high. Knowing schoolchildren, especially the younger ones, they are very prone to nail-biting and thumb-sucking.

Hence, proper handwashing is the only best defense that schoolchildren can do to fight getting sick. By keeping their hands clean, the spread of flu, diarrhea and other diseases can be quickly prevented. Handwashing activity can be effectively carried out in schools if there are useful devices that these schoolchildren can utilize right away. With portable sinks in every classroom, schoolchildren can be kept clean and healthy all the time.

Cleanliness in a mobile food business is important, cleaning the leftovers and food can be so hard but with the help of portable sinks.

Article Source:http://EzineArticles.com/?expert

Keep Kids Healthy With Portable Sinks for Classrooms

ByAngel B Mayer

Since most kids don't commonly complain about minor symptoms of sickness until they feel very weak and in pain for a day or two, it is important to keep them safe and healthy at all times. As a good and effective preventive measure, kids should start learning about proper hand washing at home and even at school. By letting them practice the routine every single day, kids will soon get used to the habit of keeping their hands clean before taking in any food products.

The school is probably like a second home for children. They spend a lot of time in these halls to learn different things that will help them become better persons in the future. Each classroom has to be equipped with the right tools for learning. Books aren't just they only way to get kids to learn about the world, the environment, and good health. There are still many things that teachers and other educators can present to children.

Having portable sinks for classrooms is a very practical way to let kids learn about proper sanitation. Teaching them all aspects of hand washing through actual practice with use of soap and water can help a lot in keeping them well-informed. The kids will also learn just how important health and wellness is for every individual. The fact that they can avoid the spread of diseases though simple and easy hand washing, these kids will become much better and healthier individuals today and the future. Without this very important lesson, kids can easily infect other people or become infected with harmful bacteria making them sick.

These days, many parents cannot afford to see their children get sick with an illness that could have been easily avoided through proper hand washing. Though teaching kids are primarily one the many functions of parents, the school also plays a very important role in teaching their kids how to become healthy individuals. Not all parents are capable of teaching their kids, thus learning should never stop at home but should extend in the classroom with the help of teachers and useful equipments.

Portable sinks for classrooms are an integral part of kids' learning on how to become healthy individuals. This is one of the most basic and yet powerful tools in teaching kids understand how proper washing of hands should be done. Though this may sound very simple, but the benefits of keeping kids informed and healthy is priceless.

Make your children reach the sink with customized portable sinks for classrooms with easy to move sinks for your kids and with hot and cold water faucet.

Article Source:http://EzineArticles.com/?expert

Portable Sinks for Daycare - A Healthy and Wise Choice

ByAngel B Mayer

Investing in portable sinks for daycare centers is very important. In fact, there are a lot of great benefits for choosing such equipment to be used in facilities like daycares. Everybody would agree that this is probably one of the wisest and most convenient ways to protect our children. Daycare centers and even preschool centers must stay true to their words in keeping children safe and healthy while under their care. A good sink for children for every classroom would be ideal and practical as well. An easy to carry sink can also help institutions save a lot of money without compromising the health and wellness of children.

One of the most practical reasons for investing on an easy to carry sink is the idea that it can save people a lot of money. Owners of preschools and daycare centers would mostly agree that saving enough money for such equipments belongs to their top priority due to the unstable state of today's economy. By utilizing an easy to carry sink, users will also be able to control the amount of running water just like any other ordinary permanent sink. This also allows teachers to have kids learn about conservation of resources.

The use of easy to carry sink also have a great impact towards the environment. For centers that are concerned with the environment, this seems to be one the best choices. Many children are quite wasteful when it comes with water simply because they are not yet aware of its environmental impact. Having a good easy to carry sink around the classroom will allow kids to learn a very valuable lesson about water conservation and saving the environment. When these kids learn of its importance, they now understand why they have to save water and not waste them. Imagine just how much water can be saved from it. It would certainly make their parents proud as well.

Portable sinks for daycare centers can help promote a better and healthy lifestyle for many kids. This is a very good tool which can be used to teach young children about sanitations and how can hand washing become so important in keeping them healthy all the time. This idea would be one of the wisest concepts in keeping kids well-informed of roper health practices which they can adopt in their own homes. Parents would be most proud to see their kids learning more on how to be healthy.

Make your children reach the sink with customized portable sinks for daycare with easy to move sinks for your kids and with hot and cold water faucet.

Article Source:http://EzineArticles.com/?expert

Alternative Energy Sources: The Future of Clean Energy

A quest for alternative energy sources has become a common phenomenon at every corner of the earth. The stock of fossil fuel will one day come to an end. Moreover, burning this fuel pollutes our surrounding atmosphere. So, there is an urgent need for alternative sources of clean energy. There are several options in this regard. The need is a comprehensive planning and proper implementation of the strategy. Mass campaigns should be arranged to make the general people aware about the benefits of renewable energy.

The Sun is the most powerful and effective source of alternative energy. Solar power guides the air pressure and the tidal waves that are used in wind and hydro-electric plants. Solar power is the key source behind generating free and never-ending electricity. This electricity has become a common energy mode at households in different distant and remote corners across the countries. Solar heater, bulbs, lanterns and other electrical equipment can be activated with solar energy. Even, street lights are being lit with this electricity. One of the key reasons behind the popularity of solar power is that it can be generated at home without any technical knowledge. The time is not far, when it will be utilized to run automobiles.

The rich benefits of renewable electricity can be fully reaped after initial installation investments. The resource efficient apartments are systematically equipped to conserve energy as well as run on less energy utilization than those of traditional buildings. These buildings are designed in line with environment-friendly set ups and they make proper use of the surrounding environment. They are armed with cost-effective equipment and technologies that offer the dividends of lower energy consumption cost, clean and fresh air, and enhanced real estate value. These households are also not dependent on local power stations, and hence unaffected by power shortage. They easily gain attention due to uninterrupted power supply advantage.

In the rural belts, biogas electricity is generating interest among the masses. As, biomass, crops, manure and green waste are easily available in such areas, production of biogas will no doubt gain momentum in the coming times. Ironically in different corners of the world there is still reluctance to accept alternative energy sources due to lack of awareness about eco-friendly energy. There is an urgent need for extensive campaign planning on behalf of both government and NGO levels. To make our earth cleaner, energy conservation efforts and renewable energy sources will play major roles in the coming future.

Earth Technologies is a green solution company dealing with alternative energy sources.

Article Source:http://EzineArticles.com/?expert

Risky Chemicals in the Environment and Protecting Yourself

Risky chemicals in the environment have increased drastically in the last couple of years. Some of these are due to human influence while others are brought about by natural causes. Regardless of the factors leading to this state, the impact has been devastating not only to humans but animals alike.

Some of these chemicals come from either industrial or agricultural activities. There are some which are designed to carry out functions like healing animals or killing pesticides. Additionally, others are designed as structural materials used to enhance various applications. While these chemicals come in handy for enhancing life, they are also known to cause grievous harm. Considering this fact, it is in order to state that the arm far outweighs the benefits.

Risky chemicals get to the environment as emissions and in other instances, they do so through water. For instance, when nitrogen and sulfur oxide from vehicles and industrial wastage are omitted and combine with the other gases in the atmosphere, they are responsible for causing acidic rain. This in turn poisons rivers and water bodies. It is for this reason that there is an influx in death of aquatic animals. At the end of the day, this also affects land by lowering its productivity.

Risky chemicals in the environment are also responsible for affecting chains of interconnected ecosystems and eventually this leads to extinction of certain species. Due to all these factors, it is important to ensure that you are well protected from the effects associated with these chemicals. The air people breathe, food they eat and the water they drink is ingested with these risky chemicals and for this reason, it is always considered important to ensure that caution is exercises.

No place is safe since the indoors and outdoors are all affected. You could start protecting yourself from risky chemicals in the environment by ensuring that you don't live in areas close to chemical processing plants. While you might thinks this is an inconvenience, it will go a long way to increase your chances of enjoy good health. According to research, it is estimated that at least 80% of all cancer cases are brought about by such risky chemicals. Other risk factors include kidney disorders, heart disease, liver disease, anemia and emphysema among others.

Even the personal things people use such as hair sprays, strong cleaners, varnish, paint and tarnish are known to contain risky chemicals. At the end of the day, this reinforces the belief that no one is actually safe from the risky chemicals in the environment. As the rate of pollution continues to increase, more and more people are suffering from all the effects stated earlier and it is precisely due to this fact that it is deemed important to find a solution quickly.

If something is not done about the risky chemicals in the environment, it will be only a matter of time before there is an increased reportage of more sick people. Fortunately, there are some measures which are been put into place to ensure that this never happens. With luck, it should be easy for this end to be met.

Find out more about Miracle 2 Soap for natural cleaning products. Learn more about Miracle 2 Neutralizer to help raise the body ph level.

Article Source:http://EzineArticles.com/?expert

President Obama's Green Energy Jobs

ByLeonard Wald

The Problem
President Obama has proposed opening up millions of jobs to replace some of the millions lost in the recession by pushing development in the field of green energy. This is an excellent proposal, if possible, since it would accomplish four desirable goals at the same time, namely:
Help make the transition from a fossil fuel based energy economy to a green energy economy in order to reduce carbon dioxide and other bad emissions.Start the U.S. on the road to a sustainable energy economy.Reduce or perhaps eliminate the chronic trade deficit the U.S. runs in the world economy by reducing its oil and gas imports.Provide the jobs the U.S. so desperately needs.

Several critics have stated that the President's proposal is only politics, since the green energy field cannot provide millions of jobs and dependence on green energy sources may not even be achievable at the present time. Let us investigate this proposal without the political polemic to see if it is a realistic goal.

The Requirements
In order to accomplish the President's job goals, we need to look for energy production options that have the following characteristics.
The energy production option should provide large numbers of jobs and yet not drive up the cost of the energy produced. Thus we are looking for a means of taking the money we normally would pay to the owners of oil and gas fields and pay it to US workers. Such an option, would allow us to pay no more for the energy and have the money paid go to American workers.
The programs the government supports must have job leverage-i.e., the money the government provides will produce jobs, but it will also encourage investors to provide new money that will produce even more jobs. Without leverage, millions of jobs requires billions of dollars which the US currently can't afford
The jobs produced should be free from job replacement by computers and robots. In order for this to happen, working with humans must be the best to operate.
It should be possible for the chosen energy option to enter into the job production phase as soon as possible. We must think of results showing:
Political near term-1 1/2 years from now to be useful for the next election.
Near term-5 years from now.
Long term-10 years from now.
In order to accomplish the President's green energy goals, we need to look for energy production options that have the following critical features, namely, the energy must be:
Plentiful enough to start covering the nation's base load (electricity) needs in the near term and make fuels for portable power plants (autos, trucks and aircraft) that can replace fossil fuels in the long term as they peak out.Safe and free from carbon dioxide and other pollutant production.Price competitive with fossil fuels ($0.08-0.12/KWH), so it can start replacing fossil fuels now, and later, as fossil fuels peak out, replace them.Able to use the existing energy distribution systems.

Potential Solutions
Several green energy options have been proposed, namely:
Nuclear fission reactors of a modified and improved design.Land based wind turbines.Shore based wave generators.Land based solar cells and/or solar thermal generators.Green fuels to replace fossil fuels such as alcohol and oil from food crops, waste wood, kelp and algae.Land based deep thermal wells.Ocean based wind turbines, wave generators and solar cells.

Let us explore each green energy option in sequence and match it to our list of requirements.

Nuclear Fission.A nuclear fission reactor is competitive in cost because the energy is as concentrated as is that from fossil fuels, so a relatively small amount of equipment is needed to exploit it. Such reactors are currently being used for base load (Load Factor

Fuel-Saving Products And Devices On The Market - People Need More Than Mere User Feedback As Basis

ByJoan Vonnegut

There is a wide range of fuel-saving products and devices which are made available on the global market now that energy and fuel consumption have become a growing concern that more and more people are learning more about. Most these products and devices are only backed up by feedback from people who great things to say based on the results they've gotten after using these products and devices which are aimed to help cut down overall fuel consumption.

Most people are inclined to saying how much they have managed to cut down on their fuel consumption, allowing them to save money in the process, however what do most people really know when it comes to efficiency in fuel?

Companies that manufacture and distribute these products and devices will clearly use the best terms to entice the public into buying what their company has to offer and it is easy for people to believe that they are getting exactly what they pay for, and as much as their results may be true in the basic sense, there are other factors which can affect the consumption of fuel in general which most people are simply oblivious to.

It is common for people to find positive changes in the overall consumption of fuel but the truth of the matter is that factors such as driving style, route, and even the weather conditions can affect how much fuel is going to be consumed by any given motor vehicle.

Keeping these factors in mind, it becomes relatively important that people become able to realize whether or not these fuel-saving products and devices really do work as effectively as they claim. If you are looking to take part in the movement towards a global reduction on fuel consumption, it is best to select the best fuel-saving products and devices based on features other than user feedback since most of the feedback that you will find on company websites are likely to be intended to generate higher sales for the company.

If you are able to find a company that can provide you with a very clear breakdown on how their fuel-saving products and devices effectively reduce fuel consumption then you have better luck at getting exactly what you want for your money. Finding emissions drive cycle testing results can provide you with a much better way to see how fuel-saving products and devices are supposed to work as opposed to seeing what other people have to say.

Joan Vonnegut
Fuel-Saving Products

Article Source:http://EzineArticles.com/?expert

Wind Power - What You Don't Know Might Blow You Away

Most people think that wind is our best choice for generating energy. However, that's not exactly true, and unfortunately the alternative energy global warming devout religious folks have not been entirely honest with all of us. You see, there are a number of problems with wind generation and perhaps we should discuss this for a moment.

Setting up wind towers and wind turbines, and trying to generate more and more electricity from that strategy actually degrades the reliability of our grid, and causes us to have energy shortages, perhaps even rolling blackouts. This is because the wind does not always blow, but this is only one problem with wind turbine energy, there are many more. Did you know the CO2 it takes to create the concrete base for these wind towers would take 20 years to offset per the amount of energy they create as opposed to a coal-fired plant?

Did you know that wind turbines kill birds and bats? Many of the environmentalists are looking the other way, but as soon as an oil soaked bird is seen on TV they go crazy. Did you know that the oil spill off the coast of Santa Barbara only killed 183 birds? Do you have any idea how many birds are killed every single day for wind turbines? Wind turbines also create ultra sound, and that messes up the aviation radars, and it could cause the birds we fly in to crash, or cause a midair collision. Of course, these are only a few of the problems with wind energy, but they are worth addressing.

There was an interesting Wind Generation article in the Wall Street Journal by an environmental lawyer in MA recently, Robert F Kennedy Jr. with Water Keeper Alliance Group. It was an editorial titled; "Nantucket's Wind Power Rip-Off," published on July 18, 2011. He talked about the Massachusetts NSTAR Utility Company, and how the wind-turbine deal would drastically increase energy costs unnecessarily to all the consumers and users, putting a huge burden on increased rates, and he stated; "There are vastly cheaper forms of green energy available."

Indeed, in looking at the numbers he is exactly correct, and yet, this political pet project and Global Warming Alarmism era left-over still has its roots off-shore in the waters off Cape Cod, MA. The other day, I was discussing wind energy with an inventor, engineer, and innovator from MA with a new technology which is more efficient than the slated Cape Cod wind-turbine plan, but it is still a wind-generation scheme nevertheless.

Okay so, I explained to him that I am not a big wind-guy, because I live in Palm Desert CA, and we have a lot of wind turbines here and that power doesn't amount to a hill of beans. Further, there are a good many anti-wind folks and groups popping up, and I sent him a link to the popular Wind Energy email newsletter; WindAction

Have Alternative Energy Grants for Wind Turbine Research Been Abused?

It's rather difficult for someone to say that they are against alternative energy. After all, clean energy with less pollution is more advantageous for human health, cleaner air, and an overall better environment. Indeed, let's not forget that all humans have to drink the water, and breathe the air. Therefore, even an oil executive understands that he cannot trash the environment entirely even for maximizing profits.

And, speaking of profits, and those who might call oil companies evil, I have news for you. Over the years, while running a think tank I have seen an incredible number of so-called alternative energy projects, innovations, and inventions, along with their business plans. It is amazing to me how many folks, entrepreneurs, and others try to capitalize on the grants, easy loans, and the subsidies being offered. The other day I was talking to an alternative energy innovator, and he agreed that most of these folks are complete opportunists as he stated;

"I agree that past wind projects have been too subsidized, and were intentionally bloated on the capital side and had marginal ROI's. But that holds true for many things such as ethanol, which I deplore."

Okay so, that's his comment, and I'd like to add another comment to that, and that is this; if we keep raising the price of energy in the US to fund these excursions into green tech pipe dreams, we will deplete our tax base due to economic strife, loss of heavy and light manufacturing, and small businesses, meaning no jobs for anyone, and then no one will be able to build their very cool green tech in the US, China will make it for them using our coal that we ship to Canada, and they take to Delta Port in BC and ship it to China.

Indeed, I bet you didn't know that did you? On one hand we are over regulating our coal industry, and making it tough for them to make a living, which is causing our energy prices to rise substantially. Meanwhile we are still taking the coal out of the ground and shipping it to China. The whole thing is a bad joke, and now 2% of California's air pollution comes from China all the way across the Pacific for heaven's sake. This whole BS about green tech isn't working, it's a Utopian Trap.

My innovative alternative energy genius reminds me that his new design for an offshore wind generator has the potential for an excellent return on investment. He also claims that it would not require any subsidies, and that it would be cheaper than developing more nuclear power. Indeed, I wouldn't doubt that, as right now everything is cheaper than Nuclear since President Obama has closed Yucca Mountain, and it's politically off limits, but he won't win Nevada now, after his wise cracks about Corporate parties in Vegas which killed the Casino's profits for 36-months.

It seems to me that there is far too much political pandering, and too many economic promises when it comes to alternative energy. Everyone is sitting in singing circles and talking about green energy. Unfortunately, most of it is Pie-in-the-Sky, unfeasible, and unfortunately we are wasting our time with it. Indeed I hope you will please consider all this and think on it.

Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank. Lance Winslow believes writing 24,300 articles will be difficult because all the letters on his keyboard are now worn off now..

Article Source:http://EzineArticles.com/?expert

Alternative Energy Is the Answer to Our Unemployment, Energy, and Economic Challenges

Most people believe, probably because they've heard it on TV so often that the switch to alternative energy will bring about more jobs for America. Indeed, I think it was President Obama who promised that alternative energy would create 4.5 million new jobs. The only problem with that is they will probably have to kill at least twice as many jobs to get rid of the old and bring in the new, and so I say; not so fast my friend! Be careful what you wish for because alternative energy is not the answer to our unemployment, our future energy strategy, or our economic challenges.

If you think that wind turbine energy and solar power is going to power up our entire civilization and create jobs for everyone, you aren't thinking this through. Most of the solar cells are made in China and Germany, and some in Japan. The wind turbines are made in China, and although a few components are made here, very few components are made here in the United States. Providing taxpayer money to fund alternative energy projects means we will be sending that money overseas where it will provide jobs for Germans and Chinese.

Not long ago, I was discussing this with a wind turbine innovator an inventor, who'd come up with a very cool new technology which was more efficient than the current wind generators. When I told him I was not a big fan of wind energy, he explained to me that I was living in the past, and not thinking into the future. Indeed, I've heard such comments like that recently, and I realize those are talking points for the global warming alarmists who treat it as a religion, and the alternative energy utopians. The other day on The Weather Channel they had a discussion panel, and someone said those very words.

In any case, my complaints with wind energy have to do with the unreliability of the wind to blow a constant amount, and the return on investment due to the high costs. Nevertheless, my acquaintance said; "Look to the future technologies that will come, they will be economic."

Well, I sat one day in a symposium and seminar at the local university and listened to a Nobel Prize winner go on and on about all that jazz once, he was so into wind, but his academic credentials were too stellar for him to take real questions. Just because wind energy appears to be cleaner and greener, doesn't mean it's efficient enough to power up our civilization. Further if it costs three or four times as much to power up our civilization with wind power, then our energy prices will skyrocket, and put many small businesses, light manufacturing companies, and big corporations doing manufacturing out of business completely.

Now then, perhaps those large corporations can move to China, but that's not going to provide us with any increased employment, or help us win the future. And, it simply will not help our economy a hill of beans. Indeed I hope you will please consider all this and think on it.

Lance Winslow is a retired Founder of a Nationwide Franchise Chain, and now runs the Online Think Tank. Lance Winslow believes writing 24,300 articles will be difficult because all the letters on his keyboard are now worn off now..

Article Source:http://EzineArticles.com/?expert