Showing posts with label energy. Show all posts
Showing posts with label energy. Show all posts
on 25 May 2013

It sounds like an idea out of a sci-fi novel: a house that can produce as much energy each year as it uses. But most buyers aren't interested in houses from a sci-fi novel, and they aren't much interested in paying extra for them, either.

But a test house about to be built on a federal research site in Gaithersburg is designed to look like a typical home in the Washington area, and its inventors are going to great lengths to calculate how well the normal-looking sci-fi house would generate and consume energy when occupied by a family of four.

Groundbreaking is set for March 25, and construction is to begin in March or April, with completion expected in 15 months. Gaithersburg-based commercial builder Therrien Waddell Construction Group is the contractor, working with residential builder Bethesda Bungalows, which focuses on high-end "green" building.

The four-bedroom, three-bath house will be built with the latest in energy-efficient techniques and technology - plus redundant alternative-energy systems that will be tested later. It was designed by Building Science Corp. in Somerville, Mass. The two-story bungalow could be right out of Takoma Park, Hyattsville, Bethesda - or from Bethesda Bungalows' new-project files.

The 2,700-square-foot wood-framed house with detached, electric-car-ready garage will sit on a small hill on the north end of the campus of the National Institute of Standards and Technology, near Clopper and Quince Orchard roads. The location is next to the institute's engineering lab, where 50 or 60 scientists in the building environment division will monitor how the energy-saving technologies work when the home is in use. The $2.6 million research project was funded through federal stimulus money, after two years of preparation and design.

But no one will really live there. Instead, scientists will track what happens with a simulated family of four. "To simulate the family, the showers, toilets, lights and appliances will actually be turned on and off by computers . . . located in the detached garage," says A. Hunter Fanney, chief of the building environment division. "The computers will send signals to every device in the home to control its operation. In the case of water [used in the showers, faucets and toilets], the computer will actually open and close the water valves to extract the correct amount of hot and cold water."

Other automatically cycled appliances include a range with oven, a washer and dryer, microwave, dishwasher, and refrigerator with a door that opens and closes regularly.

Standing in for the parents and two kids, to generate body heat that will be factored into the energy-usage equation, "we'll have people simulators - devices that are similar in appearance to little hot-water heaters that will give off heat and moisture to simulate humans" in every room, Fanney says.

The "people" will be turned on and off on schedule, too. The two heaters in the master bedroom and one in each of the kids' rooms will go on at night when they're "sleeping" and off in the morning when they leave for work or school. Units in the bathrooms will cycle on and off, as will heaters in the family room, dining room and kitchen.

The house also will have a 1,518-square-foot basement, complete with people simulators.

If the notion of human simulators and computerized utilities sounds cutting edge, it is. But Fanney says much of the "net-zero" building approach is within many homeowners' grasp. Betsy Pettit, president of Building Science Corp., who served as the architect and building sciences consultant, agrees.

"In most buildings, you can lower energy usage by 40 to 50 percent by using existing off-the-shelf technology, if it's selected properly, installed properly and maintained properly, and attention is given to detail," Fanney says.


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on 11 Apr 2013

U.S. ENERGY INFORMATION ADMINISTRATION
WASHINGTON DC 20585

FOR IMMEDIATE RELEASE
March 19, 2013

Total energy consumption in the manufacturing sector decreased by 17 percent from 2002 to 2010, according to data released today by the U.S. Energy Information Administration. Manufacturing gross output decreased by only 3 percent over the same period. Taken together, these data indicate a significant decline in the amount of energy used per unit of gross manufacturing output. The significant decline in energy intensity reflects both improvements in energy efficiency and changes in the manufacturing output mix. Consumption of every fuel used for manufacturing declined over this period.

The manufacturing sector comprised over 11 percent of gross domestic product (GDP) in 2010. The manufacturing base in the United States is broad, producing items as varied as the food we eat to the clothes we wear. Manufacturing includes energy-intensive industries (those that use relatively large amounts of energy) such as petroleum refining, chemicals, aluminum, iron and steel, paper, wood products, and food, as well as less energy-intensive industries such as textiles, leather, apparel, furniture, machinery, and electrical equipment.

Energy for manufacturing can be consumed in two ways: as a fuel or as a feedstock (material input to a final product). Energy consumed as a fuel includes all energy used for heat and power. Energy used as feedstock is the use of energy sources for raw material input or for any purpose other than the production of heat or power.

U.S. manufacturing used over 14 quadrillion Btu of energy as a fuel in 2010, a decrease of 13 percent from the 2002 level. Fuel consumption in the five most energy-intensive subsectors accounted for 81 percent of fuel use in manufacturing. Two energy-intensive subsectors (petroleum and coal products, and food) showed 3.5 percent increases in their fuel consumption from 2002 to 2010.

Feedstock energy use in U.S. manufacturing accounts for more than 6 percent of all energy consumed in the country. Although nearly all manufacturers use energy as a fuel, 99 percent of feedstock energy use occurs in only three manufacturing subsectors: primary metals, chemicals, and petroleum and coal products.

Although overall manufacturing output declined by 3 percent between 2002 and 2010, some manufacturing industries grew over the period. The gross output for the petroleum and coal products subsector grew by about 3 percent, while the gross output for the food subsector increased by 5 percent. However, during this same period the number of employees in both subsectors fell, the petroleum and coal products subsector by 6,000 employees, and the food subsector by 115,000 employees. The reduction in employment, along with an increase in gross output signals an increase in labor productivity in these two subsectors.

These data, among others, are drawn from the detailed results of EIA's 2010 Manufacturing Energy Consumption Survey (MECS). The 2010 MECS is EIA's eighth survey of the manufacturing sector and covers the U.S. and four Census regions (Northeast, Midwest, South, and West). Previous surveys were conducted for 1985, 1988, 1991, 1994, 1998, 2002, and 2006, respectively. Future MECS are planned for every four years. Data collection for the 2014 MECS will begin in 2015.

The product described in this press release was prepared by the U.S. Energy Information Administration (EIA), the statistical and analytical agency within the U.S. Department of Energy. By law, EIA's data, analysis, and forecasts are independent of approval by any other officer or employee of the United States Government. The views in the product and press release therefore should not be construed as representing those of the Department of Energy or other federal agencies.EIA Program Contact: Thomas Lorenz, 202-586-3442, thomas.lorenz@eia.gov

EIA Press Contact: Jonathan Cogan, 202-586-8719, jonathan.cogan@eia.gov

EIA-2013-4


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U.S. ENERGY INFORMATION ADMINISTRATION
WASHINGTON DC 20585

FOR IMMEDIATE RELEASE
January 29, 2013

The U.S. Energy Information Administration (EIA) has added its State Energy Data System (SEDS) annual time-series data to the agency's application programming interface (API). EIA's SEDS data library adds 1.4 million data points, summarizing energy production, consumption, prices, and expenditures, to the API that EIA launched in October 2012. The API allows direct third-party computer access to the agency's public data and is ideal for software developers working in the government, research, or the energy sector who are looking to design information technology applications.

"Expanding EIA's API to include important information on state energy consumption, production, and expenditure trends is a crucial enhancement that we are eager to share," said EIA Assistant Administrator for Communications Gina Pearson. "While EIA has created many cutting-edge tools for the public to explore energy data, our expanded API now gives innovators direct access to state-level energy data to develop their own web and mobile apps."

State data available in SEDS include:

Energy production (crude oil, natural gas, coal, and ethanol)Energy consumption by source and by sector (residential, industrial, commercial, and transportation)Energy costs and expenditures by source and by sectorGDP and population

Highly valued for their comprehensive coverage, state-level granularity, and time span, the SEDS data provide information on energy trends as far back as 1960 for individual states and for the nation as a whole. For example, when seeking information on gasoline, SEDS allows you to compare states by their total gasoline expenditures and average gasoline expenses per person over time.

Data for a particular state can also be compared with other states or the national average. All of the SEDS production and consumption data is expressed in physical units, such as barrels or tons, as well as in British thermal units (Btu). Btu measurements allow different sources of energy to be compared and aggregated.

The addition of the SEDS data builds upon the API's existing electricity datasets. Planned future additions to EIA's API include the full range of the agency's weekly, monthly, and annual petroleum and natural gas data. As these data sets are added over the coming months, the total number of data series available through EIA's API will continue to grow. APIs are an important element of the federal government's Digital Government strategy to make information more transparent and customer-centered. To get your free EIA API key and learn more, visit www.eia.gov/developer.

The product described in this press release was prepared by the U.S. Energy Information Administration (EIA), the statistical and analytical agency within the U.S. Department of Energy. By law, EIA's data, analysis, and forecasts are independent of approval by any other officer or employee of the United States Government. The views in the product and press release therefore should not be construed as representing those of the Department of Energy or other Federal agencies.EIA Program Contact: Mark Elbert, 202-586-1185, mark.elbert@eia.gov

EIA Press Contact: Jonathan Cogan, 202-586-8719, jonathan.cogan@eia.gov

EIA-2013-2


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U.S. ENERGY INFORMATION ADMINISTRATION
WASHINGTON DC 20585

FOR IMMEDIATE RELEASE
January 18, 2013

WASHINGTON, DC - As much colder temperatures move into the U.S. Northeast next week, a special supplement released today by the U.S. Energy Information Administration looks at how natural gas supply constraints in New England could affect the region's energy prices. In fact, spot prices of natural gas for delivery between Saturday, January 19 and Tuesday, January 22 exceeded $14 per million British thermal units (MMBtu) at some Northeast locations. This is about four times higher than the $3.54 price for the same delivery period reported at Henry Hub, the benchmark location for pricing natural gas in the United States.

EIA posted the supplement here on its website.

Highlights of the supplement:

Since November, New England has had the highest average spot natural gas prices in the nation. Full pipelines from the west and south limit further deliveries from most of North America, while high international prices and declining production in eastern Canada pose challenges in making up the difference from the north and east, except at higher prices. As a result of these market conditions, New England natural gas and electric power prices this winter will be volatile at times. During November and December, spot natural prices in the northeastern United States went up and down in relation to weather-driven pipeline constraints. These price movements have continued into January 2013 so far. Looking to the rest of this winter, recent forward market prices indicate that New England's high natural gas prices could persist and rival northwestern European prices, which could lead to an increase in LNG imports. This report was prepared by the U.S. Energy Information Administration (EIA), the statistical and analytical agency within the U.S. Department of Energy. By law, EIA's data, analyses, and forecasts are independent of approval by any other officer or employee of the United States Government. The views in this report therefore should not be construed as representing those of the Department of Energy or other federal agencies.EIA Program Contact: Christopher Peterson, 202-586-4804, christopher.peterson@eia.gov

EIA Press Contact: Jonathan Cogan, 202-586-8719, jonathan.cogan@eia.gov

EIA-2013-1


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U.S. ENERGY INFORMATION ADMINISTRATION
WASHINGTON DC 20585

FOR IMMEDIATE RELEASE
April 11, 2013

The U.S. Energy Information Administration (EIA) has launched the most comprehensive, dynamic, and interactive view of the U.S. government's national and state energy data and information currently available to the public. Found at www.eia.gov/state, the state energy portal adds a unique visual dimension to each state's energy resources and infrastructure.

The agency designed the new portal with a range of users in mind, including policy makers, energy analysts, and the general public, who want to locate and compare state energy data and rankings and customize their own maps and charts, using an assortment of interactive tools.

"The EIA state energy portal raises the bar for visually segmenting state-level energy data. It provides a wealth of energy information to a wide variety of users, including state officials wanting detailed information on the mix of energy resources in their state, analysts assessing a state's energy sustainability, or government officials seeking the most comprehensive energy information to help develop energy policy," said EIA Administrator Adam Sieminski.

The portal takes EIA's vast portfolio of state energy data and analyses and organizes it geographically. Its comprehensive 30-layer mapping feature provides a dynamic visual representation of energy infrastructure and energy resources at the national, state, Congressional district, or county level. Map layers for Federal lands and Electric Reliability regions are also included.

Users can pan and zoom in to see energy facilities and resources related to:

Production: power plants, oil refineries, and coal minesDistribution: electric transmission lines, natural gas pipelines, and liquefied natural gas import terminalsFossil fuel resources: coal, oil, and natural gas basins, plays, and fieldsRenewable energy resources: wind, solar, biomass, and geothermal potential

In addition to customizable maps, the portal summarizes each state's ranking of its energy production, consumption, prices, and more. With a click of a mouse, users can dig deeper into any state's energy profile to learn more about its crude oil and natural gas production, renewable resources, natural gas and electricity prices, and carbon dioxide emissions and compare that data to other states and the national average. For detailed information on any of the 6,300 power plants in the United States, such as the amount of fuel used and monthly output of a specific facility, the portal links users directly to that plant's data in EIA's electricity data browser.

The new portal is EIA's response to requests from policy makers and energy experts for quick access to multi-level state energy data presented in an easy-to-understand way. EIA collaborated with state energy officials and other stakeholders on the portal's design and solicited feedback from the public during the beta phase of the project.

The state energy portal includes a help function with popup notes that explain the navigation, along with a video demonstration of its features.

The product described in this press release was prepared by the U.S. Energy Information Administration (EIA), the statistical and analytical agency within the U.S. Department of Energy. By law, EIA's data, analysis, and forecasts are independent of approval by any other officer or employee of the United States Government. The views in the product and press release therefore should not be construed as representing those of the Department of Energy or other federal agencies.EIA Program Contact: Mark Elbert, 202-586-1185, mark.elbert@eia.gov

EIA Press Contact: Jonathan Cogan, 202-586-8719, jonathan.cogan@eia.gov

EIA-2013-5


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on 10 Apr 2013
April 4, 2013 Map of South China Sea trade routes, as explained in the article text

Stretching from Singapore and the Strait of Malacca chokepoint in the southwest to the Strait of Taiwan in the northeast, the South China Sea is one of the most important energy trade routes in the world. Almost a third of global crude oil and over half of global liquefied natural gas (LNG) passes through the South China Sea each year.

The Strait of Malacca is the shortest sea route between African and Persian Gulf suppliers and Asian consumers. The strait is a critical transit chokepoint and has become increasingly important over the last two decades. In 1993, about 7 million barrels per day (bbl/d) of oil and petroleum products (20% of world seaborne oil trade) passed through the Strait of Malacca, according to the Center for Naval Analysis. EIA estimates that by the end of 2011, trade through Malacca was greater than 15 million bbl/d, or about one-third of all seaborne oil. In comparison, the world's most important chokepoint for maritime transit, the Strait of Hormuz between the Persian Gulf and Arabian Sea, had an oil flow of about 17 million bbl/d in 2011 (see World Oil Transit Chokepoints). Average daily oil consumption worldwide in 2011 was about 88.3 million bbl/d.

A significant amount of crude oil arriving in the Strait of Malacca (1.4 million bbl/d) goes to terminals in Singapore and Malaysia instead of continuing on to the South China Sea. After processing, this crude oil is shipped out again to Asian markets through the South China Sea as refined petroleum products, such as motor gasoline and jet fuel. The rest of the crude oil passes through the South China Sea to China and Japan, the two largest energy consumers in Asia. Finally, about 15% of crude oil moving through the South China Sea goes on to the East China Sea, mostly to South Korea.

Crude oil flow in the South China Sea also comes from intraregional trade, particularly from Malaysian, Indonesian, and Australian crude oil exports. Intraregional trade is distributed evenly among Singapore, South Korea, Japan, and China, with smaller amounts going to other Southeast Asia countries.

Map of South China Sea trade routes, as explained in the article text

The South China Sea is also a major destination for LNG exports. About 6 trillion cubic feet (Tcf) of liquefied natural gas, or more than half of global LNG trade, passed through the South China Sea in 2011. Half of this amount continued on to Japan, with the rest of it going to South Korea, China, Taiwan, and other regional countries. Almost 75% of all LNG exports to the region came from Qatar, Malaysia, Indonesia, and Australia.

With growing demand for natural gas in East Asia, the South China Sea's share of global LNG trade will likely increase in the coming years. Moreover, Japan has increased its LNG imports to replace the energy lost from nuclear power outages following the Fukushima crisis. Much of the new supply will come through the Strait of Malacca, although some countries like Indonesia are investing in their own LNG export capacity.

Finally, large quantities of coal from Australia and Indonesia, the world's two largest coal exporters, pass through the South China Sea to markets around the world, especially to China, Japan, and India. These coal shipments include both steam coal used for generating electricity and process heat as well as metallurgical coal that is a key ingredient in primary steel production.

For more information, see the South China Sea Regional Analysis Brief.


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