Portal:Energy
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The Energy Portal
Energy is a set of physics measures. Popularly the term is most often used in the context of energy as a technology: energy resources, their consumption, development, depletion, and conservation. Biologically, bodies rely on food for energy in the same sense as industry relies on fuels to continue functioning. Since economic activities such as manufacturing and transportation can be energy intensive, energy efficiency, energy dependence, energy security and price are key concerns. Increased awareness of the effects of global warming has led to international debate and action for the reduction of greenhouse gases emissions, like many previous energy use patterns it is changing not due to depletion or supply constraints but due to problems with waste, extraction or geopolitical scenarios. In the context of natural science, energy can take several different forms: thermal, chemical, electrical, radiant, nuclear, etc. These are often grouped as being either kinetic energy or potential energy. Many of these forms can be readily transformed into another with the help of a device; from chemical energy to electrical energy using a battery, for example. Most energy available for human use ultimately comes from the sun which generates it with nuclear fusion. The enormous potential for fusion and other basic nuclear reactions is expressed by the famous equation E = mc2. The concepts of energy and its transformations are useful in explaining natural processes on larger scales: Meteorological phenomena like wind, rain, lightning and tornadoes all result from energy transformations brought about by solar energy on the planet. Life itself is critically dependent on biological energy transformations; organic chemical bonds are constantly broken and made to make the exchange and transformation of energy possible. Read more... Natural gas, often referred to as simply 'gas', is a gaseous fossil fuel consisting primarily of methane. Natural gas is found in oil fields, natural gas fields, and in coal beds (as coalbed methane). Before use as a fuel, natural gas undergoes extensive processing to remove almost all materials other than methane. Natural gas is a major source of electricity generation, and particularly high efficiencies can be achieved through combining gas turbines with a steam turbine in combined cycle mode. Natural gas burns cleaner than other fossil fuels, producing about 30% less carbon dioxide than oil and about 45% less than coal, per unit of energy released. It is also expected that natural gas reserves will peak around 2030, some 20 years after peak oil production. Compressed natural gas is also used as a cleaner alternative to other automobile fuels such as gasoline (petrol) and diesel. Natural gas is also used domestically for cooking and for central heating. The major difficulty in the use of natural gas is transportation and storage because of its low density. Pipeline transport is economical, but is impractical across oceans. Liquefied natural gas can be shipped in LNG carriers, however the required liquefaction facilities add to the cost. The practice of flaring gas released in the course of recovering petroleum, so adding to greenhouse gas emissions, is now illegal in many countries. Read more...  Photo credit: From an image by Contributor
 Benjamin K. Sovacool is a Visiting Associate Professor at Vermont Law School and founding Director of the Energy Justice Program at their Institute for Energy and Environment. He was formerly an Assistant Professor and Research Fellow at the National University of Singapore. Sovacool's research interests include energy policy, environmental issues, and science and technology policy. He is the author or editor of eight books and more than 130 peer reviewed academic articles on various aspects of energy policy and climate change, and has presented research at more than 60 international conferences and symposia. He is a frequent contributor to Energy Policy, Energy & Environment, Electricity Journal, and Energy, and Energy for Sustainable Development. In 2007 Sovacool co-edited Energy and American Society: Thirteen Myths and in 2008 he wrote The Dirty Energy Dilemma which won a 2009 Nautilus Award. His other books include Powering the Green Economy, The Routledge Handbook of Energy Security, Contesting the Future of Nuclear Power, and Climate Change and Global Energy Security. Read More...
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