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Energy Efficiency and the US Heavy Industry
Author: Mike Dickinson
The United States is the largest consumer of energy in the world, using 94.9 quadrillion BTUs in 2009 and heavy industry in the United States accounts for about 31% of all energy consumption, significantly more than any other sector of the economy. Seven energy-intensive industries use three-fourths of this power; these are aluminum, chemicals, forest products, glass, metal casting, mining, and steel. All these heavy industries are also under tremendous pressure to reduce their huge dependence on expensive non
renewable energy.
A recent study by the European Commission thinks not. The study estimates that the United States has the potential to save about 45 TWh energy per year, through use of energy efficient transformers. Even a 0.01 percent gain in the average efficiency of utility transformers installed in the U.S. in a single year, can save as much as 2.9 Twh energy.
The environmental benefits of energy-efficient transformers are also significant and the study by the European Commission believes transformers could well emerge as a major focus for energy efficient initiatives in the industry.
Energy Guzzling Industries
Chemical Industry,
Paper and Pulp Industry
Iron and Steel Industry
Mining Industry
Is the Answer Energy-Efficiency
Energy efficiency is already playing a significant role in the Heavy Industry, but with growing concerns of greenhouse gas emissions and skyrocketing cost of energy, it obviously needs to do more.Before the 1970s, the U.S. energy consumption grew in parallel to gross domestic product (GDP). Had that trend continued, current U.S. energy demand would have more than doubled, currently, the energy consumption is 1.5 times that of 1970. Reduction in energy consumption has resulted from a combination of energy efficient methods and a shift from energy-intensive manufacturing toward a service and information-based economy.
Do Energy Efficient Transformers Hold the Key?
As energy costs rise and availability becomes uncertain, the necessity of utilizing energy-efficient products becomes imperative. Additionally, a globally competitive business environment is causing businesses to cut costs in order to remain competitive. Of particular interest are distribution transformers
that are the largest loss-making components in electrical networks.
In a typical grid, electric transformer loss contributes to about 40-50% of the total transmission and distribution loss. The Environmental Protection Agency (EPA) estimates that on a conservative estimate 61 billion kWh annually can be attributed to transformer losses. These losses cost end-users to billion annually. An energy-efficient transformer is therefore an important means to reduce transmission
and distribution loss. Energy saving transformers can additionally save the equivalent of more than 70 million tons of CO2 emissions.
The answer to energy efficiency is in making distribution transformers efficient; and thankfully, manufacturers have the technical know-how to offer better, cost effective, low loss, energy efficient transformers.
Energy Efficient Distribution Transformers
Distribution transformers distribute power from power generating facilities to end-users and while energy loss during transmission is inevitable, measures are taken to reduce it considerably.However, for energy to be consumed voltage needs to be reduced and it is at this point of stepping down electricity that distribution transformers lose energy. Even though only a small portion of energy is lost it is in a permanent manner and standby power losses account for 2% of total electricity production.
Despite high average efficiencies of 95 to 99.75%, transformers have a significant environmental impact because they continuously consume power.
The energy losses in electricity transformers fall into two components, namely, no-load losses resulting from the energized iron core, which is a permanent phenomenon, and load losses, arising when providing power to users. Load losses also result from the resistance of the coil when the transformer is in use, and from eddy currents due to stray flux.
Technical solutions exist to reduce transformer losses by 75% at minimum when replaced by modern transformers or even by 90% when replacing transformers over 30 years old. Energy-efficiency can be improved with better transformer design, like selecting better, lower-core-loss steels; reducing flux density in a specific core by increasing the core size; increasing conductor cross-section to reduce current density; good balancing between the relative quantities of iron and copper in the core and coils.
An energy efficient transformer is an important means to reduce Transmission & Distribution loss and can save up to 120 TWh / year. Energy efficient transformers can provide considerable environmental benefits too. For example, a typical urban distribution transformer rated at 400 kW has lifetime losses equivalent to 125 –184 tons of CO2 emissions; a more energy-efficient design can reduce these
emissions to 56 tons.
Article Source: http://www.articlesbase.com/industrial-articles/energy-efficiency-and-the-us-heavy-industry-2724483.html
About the Author
Mike Dickinson is a contributing author for Pacific crest Transformers
To know more about Energy Efficient Transformers check out Pacific Crest Transformers website Pacificcresttrans.com
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The Singapore Enviroment Institute.
Neither. Free market supply and demand makes more sense.
I agree completely…actually, I’ll go further and say that gas prices should be higher. The government needs to stop subsidizing gas prices, and the price will go up to about 8-10 dollars/gallon. If this happened people will push for alternative energy forms. Also, the subsidies that went to gas could go towards renewable forms of energy.
There are a lot of great sites to do research. The US dept of energy website is one. You can find links to a few sites if you go to the one in the source box.
If they are interest-free loans, I think it is a great idea.
Studies for renewable energy/photovoltalic solar etc. and energy efficency?
Is there a university in Singapore that offers classes for energy efficiency, environmental economics with special focus on solar energy and other renewable energy resources???
Thanks in advance for all the friendly answers!
BR,
Lars
WHO do you trust more to stabilize energy prices?
A) The neoconservatives/PNAC and their approach of securing good relations and control with oil producing countries
B) Energy efficiency and renewable energy specialists who decrease the use of fossil fuels
Add: until recently, the market was not working properly as oil companies received more federal money than renewable energy companies, creating a distortion against clean and long term solutions.
The market only: we see how market isn´t working as marketing decisions are taken on a 3-5 years scope. This is reason why the US has plenty of cars not suited to the new oil price levels.
Solution to Global Warming; keep the energy prices high! Who agrees with me?
Causes of Global Warming:
1) Carbon Dioxide from Power Plants
2) Carbon Dioxide Emitted from Cars
Problems of renewable energy and energy efficiency:
1) renewable energy and energy efficiency technologies cause consumers to consumer energy 2 times due to lower energy price.
Solution to Global Warming:
1) Keeping the energy prices high will force consumers to conserve energy which means carbon dioxide emissions from the power plant. 50 years ago, household A/C non exist. We can live without A/C
2) Keeping the energy prices high will increase demand on public transportation (Bus, Train, Car Pool, etc). We don’t need to own a car. We have public transportation in the urban and suburban.
We are spoiled!!! If we believe in saving the planet earth, keep the energy prices high. Al Gore, Obama, Clinton, and enviromentalists should be supporting high enery prices. Otherwise, they are a FAKER and only cares about their wealth.
Joel R. There are invention called bicycles or walking. Car Pool??
I need some feedback from the Green Community on this idea: Microfinance for energy efficiency?
I need some feedback from the Green Community on this idea: Microfinance for energy efficiency.
Microfinance is huge now. Kiva.org is extremely popular and growing.
What if we could reapply this web based microfinance system towards energy efficiency projects.
The projects that would be funded would be like:
1) A 2yr loan to replace refigirators at a senior citizen home
2) A 6month loan to repalce all the old lightbulbs at schools
3) A 1.5yr loan to replace the furnace at a school
Users would select which loans they want to fund on a website and would be repaid the principle over the load period. 100% of the loan would go directly to the project (nothing for overhead). When the load is repaid, the lenders would be free to reloan if they like or withdraw their funds.
The projects would all be energy efficiency projects in the US to start off with but may expand to renewable energy project later on.
Would this be something that you would be a part of?
Renewable Energy survey for desigining a low carbon-footprint house.?
This is a basic letter I designed to send to blogs, etc. Decided to try here too. !
Hello,
I’m designing an energy efficient house suitable for different environments for my DT IGCSE coursework and am researching the possible reductions in energy use would be made using renewable energy sources such as: solar, geothermal, wind, etc. as well as techniques such as insulating, etc., these improvements to be made on the common household in the UK. Therefore I would like to ask:
How do different geographical locations affect the efficiency of renewable energy sources or allow for their feasibility?
(Following questions to be answered for different locations if possible; climates, location, etc.)
1) What is the overall energy consumption of the average house?
2) How is this broken down into different fuels?
3) What are these fuels used for?
4) How much does it cost to be supplied with this energy?
5) How much energy could be saved installing green energy sources and insulation?
6) How is this broken down into different techniques?
7) How much money could be saved?
9) Is it really that efficient?
10) What group of people is most likely to pay for such efficiency- large or small?
If there is any more information which might aid me in designing my product please could you add here: