Scott Mackenzie, Natural Power's Director of Asset Management, described his company's «total asset management» database and tools that define optimum performance, and Glen Benson, AWS Truepower's Manager of Performance Analysis, explained his company's new statistical tools (average wind speed to energy production ratio, downtime to
average energy production ratio).
Not exact matches
The U.S.
Energy Information Administration (EIA) estimates that an
average of 800,000 barrels per day in
production were taken offline last month, contributing greatly to May's having the highest monthly level of unplanned global oil supply disruptions since the agency began tracking such data in 2011.
«The [U.S. Department of
Energy] expects the Obama administration's recent drilling moratorium to cut U.S.
production by an
average 70,000 [barrels a day] next year, which is equal to only about 1 per cent of current OPEC spare capacity.»
Devon
Energy beat its midpoint guidance with Q2 net
production averaging 536,000 oil - equivalent barrels per day, and said that it was on track to achieve its full - year 2017
production targets.
It's quite a daunting challenge, given that the
average hurricane's wind
energy equals about half of the world's electricity
production in a year.
Oil
production in the world's largest economy
averaged 10.057 million barrels per day in November, shattering a nearly 50 - year record, according to the U.S.
Energy Information Administration (EIA).
Looking forward, the Index projected
energy security to
average 78.3 points from 2016 - 2040, with some softening of
production increases due to prices.
The Dallas Fed
Energy Survey from Q1 2017 at the end of March showed that 62 executives from exploration and
production firms said that the
average breakeven price to profitably drill a new well in the Eagle Ford was $ 48 per barrel WTI.
For all their official
production measurements, OPEC uses an
average of estimates from six «secondary sources», namely the International
Energy Agency (IEA), the oil - pricing agencies Platts and Argus, the U.S.
Energy Information Administration (EIA), the oil consultancy Cambridge
Energy Research Associates (CERA) and the industry newsletter Petroleum Intelligence Weekly, as an impartial adjudicator as to whether their output quotas and
production cuts are being met, to resolve any potential disputes that could arise if each member reported their own figures.
CALGARY, ALBERTA --(Marketwire - Aug. 6, 2009)- Suncor
Energy Inc. reported today that
production at its oil sands facility during July
averaged approximately 304,000 barrels per day (bpd).
Total U.S. crude oil
production averaged an estimated 8.6 million barrels per day in August, the highest monthly
production since July 1986, according to the
Energy Information Administration (EIA).
The model produces different jobs and growth projections for a business - as - usual scenario with no technology breakthroughs or major new policies, and then generates different outcomes by factoring in new policies such as a national clean
energy standards such as proposed by President Obama; increases in corporate
average fuel economy standards; tougher environmental controls on coal - fired power generators; extended investment and
production tax credits for clean
energy sources and an expanded federal
energy loan guarantee program.
Total annual
production emissions,
averaged over five years, would equal about 100 grams of carbon dioxide per megajoule — which is 7 percent greater than gasoline emissions and 62 grams above the 60 percent reduction in greenhouse gas emissions as required by the 2007
Energy Independence and Security Act.
According to the U.S.
Energy Information Administration, U.S. crude oil
production averaged 7 million barrels per day (bbl / d) in December 2012 — the highest output since 1992.
At one point, Opportunity's
energy production dipped to 128 watt - hours from a normal
average of 700.
The researchers also found that — among their hundreds of
production scenarios — organic ones were more
energy - intensive on
average, producing more carbon dioxide than conventional
production.
The
average fossil
energy input for all the animal protein
production systems studied is 25 kcal fossil
energy input per 1 kcal of protein produced (Table 2).
Cumulative
production, at just over 6,090 megawatts by the end of 2005, has increased on
average 33 percent a year since 2000, making solar power the world's fastest growing
energy source.
This is because they are based on annual
averages of renewable
energy production, and do not address the highly variable and uncertain character of wind and solar
energy.
«The CO2 numbers [in the oil sands] sound frightening when only the
production and refining are taken into account... Yet once the oil is burned, a variety of sources say the total lifecycle impact of oil sands relative to the
average crude used in the U.S. is much smaller, including the Council on Foreign Relations (17 percent higher emissions) and Cambridge
Energy Research Associates (5 - 15 percent).»
According to Bentek
Energy, LLC estimates, natural gas
production in West Virginia and Pennsylvania now
averages almost 4 billion cubic feet per day (Bcf / d), more than five times as much as the
average from 2004 through 2008.
The use of U.S.
average grid values results in a higher reported tacit
energy consumption value than the actual tacit value required for primary aluminum
production.
NEW YORK (Reuters)- The U.S.
Energy Information Administration said on Tuesday that the 2018
average oil
production rate will hit the highest level for any year on record in the United States.
The advantage of reporting primary
production energy consumption based on the U.S.
average grid is that it allows easier and same basis comparisons to other U.S. manufacturing industries.
«Gross Revenues» means the total monies received by Grantee from a utility company or other power purchaser (provided, however, that if electricity is sold to a subsidiary or affiliate of Grantee, then, and only then, the gross receipts from the sale of electricity under such contract shall be calculated using a sale of not less than the arithmetical
average of the prices quoted by market sources of information, which information may be based upon the price paid by any purchaser or purchasers, including Grantee or any subsidiary or affiliate of Grantee, for electricity produced in the Iowa region of the Midwest Independent System Operator («MISO») from operation of wind turbines during the calendar year immediate!y preceding the year in which such electricity
production from the Wind
Energy Project occurs, taking into account the aggregate terms associated with such transaction) derived from the sale of electric energy and capacity produced and sold from the WTG's installed on the Premises, net of proportional energy losses associated with the power collection system or utility interconne
Energy Project occurs, taking into account the aggregate terms associated with such transaction) derived from the sale of electric
energy and capacity produced and sold from the WTG's installed on the Premises, net of proportional energy losses associated with the power collection system or utility interconne
energy and capacity produced and sold from the WTG's installed on the Premises, net of proportional
energy losses associated with the power collection system or utility interconne
energy losses associated with the power collection system or utility interconnection.
Indeed, notes Rutgers biologist David Ehrenfeld, studies by prominent oil geologists show that «global
energy production per capita reached its peak in 1979 and has been falling at an
average rate of 0.33 percent per year ever since.»
Average annual
energy production is estimated at about 298,000 megawatt hours (MWh), enough to supply about 68,000 standard homes.
Energy production produces Joules, CO2 releases produce Watts that continue to produce Joules for 100 years or so on the
average.
«Climate science» as it is used by warmists implies adherence to a set of beliefs: (1) Increasing greenhouse gas concentrations will warm the Earth's surface and atmosphere; (2) Human
production of CO2 is producing significant increases in CO2 concentration; (3) The rate of rise of temperature in the 20th and 21st centuries is unprecedented compared to the rates of change of temperature in the previous two millennia and this can only be due to rising greenhouse gas concentrations; (4) The climate of the 19th century was ideal and may be taken as a standard to compare against any current climate; (5) global climate models, while still not perfect, are good enough to indicate that continued use of fossil fuels at projected rates in the 21st century will cause the CO2 concentration to rise to a high level by 2100 (possibly 700 to 900 ppm); (6) The global
average temperature under this condition will rise more than 3 °C from the late 19th century ideal; (7) The negative impact on humanity of such a rise will be enormous; (8) The only alternative to such a disaster is to immediately and sharply reduce CO2 emissions (reducing emissions in 2050 by 80 % compared to today's rate) and continue further reductions after 2050; (9) Even with such draconian CO2 reductions, the CO2 concentration is likely to reach at least 450 to 500 ppm by 2100 resulting in significant damage to humanity; (10) Such reductions in CO2 emissions are technically feasible and economically affordable while providing adequate
energy to a growing world population that is increasingly industrializing.
In conclusion, wind
energy does not meet the needs and forces the use of other forms of
energy to fill the gaps, but in addition this irregular
production contributes to the
average surplus of the
energy production, which also has a cost.
The gift that is American
energy is seen in some key numbers: domestic crude oil production reaching more than 9 million barrels per day last month, the highest level in more than two decades, according to the U.S. Energy Information Administration (EIA); total U.S. net imports of energy as a share of energy consumption falling to their lowest level in nearly 30 years during the first six months of this year; gasoline prices dropping to an average of $ 2.47 per gallon last week, their lowest point since May 2009, according to the Lundberg Survey
energy is seen in some key numbers: domestic crude oil
production reaching more than 9 million barrels per day last month, the highest level in more than two decades, according to the U.S.
Energy Information Administration (EIA); total U.S. net imports of energy as a share of energy consumption falling to their lowest level in nearly 30 years during the first six months of this year; gasoline prices dropping to an average of $ 2.47 per gallon last week, their lowest point since May 2009, according to the Lundberg Survey
Energy Information Administration (EIA); total U.S. net imports of
energy as a share of energy consumption falling to their lowest level in nearly 30 years during the first six months of this year; gasoline prices dropping to an average of $ 2.47 per gallon last week, their lowest point since May 2009, according to the Lundberg Survey
energy as a share of
energy consumption falling to their lowest level in nearly 30 years during the first six months of this year; gasoline prices dropping to an average of $ 2.47 per gallon last week, their lowest point since May 2009, according to the Lundberg Survey
energy consumption falling to their lowest level in nearly 30 years during the first six months of this year; gasoline prices dropping to an
average of $ 2.47 per gallon last week, their lowest point since May 2009, according to the Lundberg Survey Inc..
Total dry natural gas
production for the Lower 48 states rose to an
average of 63.6 billion cubic feet per day (Bcf / d) in 2012, an increase of almost 4 %, or 2.6 Bcf / d, over 2011, versus a rise in consumption of about 3 %, or 2.2 Bcf / d, according to data from Bentek
Energy LLC.
Recent procurements by the New York State
Energy Research and Development Authority have given renewable projects state subsidies
averaging $ 22 per MWh for 20 years, on top of federal subsidies like the $ 23 per MWh
Production Tax Credit.
According to the
Energy Information Administration, our nation's crude oil
production last year
averaged 7.5 million barrels per day (bpd)-- the highest level since 1989.
The agency forecasts total crude
production will
average 9.3 million barrels per day in 2015 and climb to 9.5 million in 2016, «which would be the second - highest annual
average level of
production in U.S. history; the highest was 9.6 million bbl / d in 1970,» the EIA said in its short - term
energy outlook released last week.
In making its final calculations it estimates the
average annual
energy production of the proposed solar system and the
energy value it should represent on an yearly basis.
In its latest edition of the Short - Term
Energy Outlook, the US
Energy Information Administration (EIA) forecasts that US crude oil
production will
average 10.3 million b / d in 2018 — the highest annual
average production in US history, surpassing the previous record of 9.6 million b / d set in 1970.
And the EREC / Greenpeace's
Energy [R] evolution» 24/7» report concluded that «during the last 30 years, the potential power
production from wind during winter time throughout Europe in the
Energy [R] evolution scenario would have only dropped below 50GW 0.4 % of the time, equivalent to once a year if the
average duration of the event is 12 hours».
U.S. Department of
Energy (DOE),
Energy Information Administration (EIA), Crude Oil
Production, electronic database, at tonto.eia.doe.gov, updated 28 July 2008; American Wind
Energy Association (AWEA), «Installed U.S. Wind Power Capacity Surged 45 % in 2007: American Wind
Energy Association Market Report,» press release (Washington, DC: 17 January 2008); AWEA, U.S. Wind
Energy Projects, electronic database, at www.awea.org/projects, updated 31 March 2009; future capacity calculated from Emerging
Energy Research (EER), «US Wind Markets Surge to New Heights,» press release (Cambridge, MA: 14 August 2008); coal - fired power plant equivalents calculated by assuming that an
average plant has a 500 - megawatt capacity and operates 72 percent of the time, generating 3.15 billion kilowatt - hours of electricity per year; residential consumption calculated using «Residential Sector
Energy Consumption Estimates, 2005,» in DOE, EIA, Residential
Energy Consumption Survey 2005 Status Report (Washington, DC: 2007), with capacity factor from DOE, National Renewable
Energy Laboratory (NREL), Power Technologies
Energy Data Book (Golden, CO: August 2006); population from U.S. Census Bureau, State & County QuickFacts, electronic database, at quickfacts.census.gov, updated 20 February 2009.
The cost of wind
energy has fallen 65.5 percent since 2009 according to the DOE report, which also says the U.S. is the global leader in total wind
energy production, with enough to power the equivalent of 18 million
average American homes.