Sentences with phrase «waste energy recovery»

(a) Electric and thermal waste energy recovery awards.

(Sec. 243) Amends the EPCA to allow those who recover waster energy to elect to receive grants from the waste energy recovery incentive grant program.

«Modern waste to energy recovery facilities that are designed and operated in accordance with current stringent regulations do not adversely impact human health or the environment,» asserted Sarah Foster a founding member of Maryland based scientific research and consulting firm, CPF Associates.

Delegates heard from Tracey Forrest, director at WISE, that advancements in energy recovery through rigorous evidence - based science are critical if the full potential of waste as a resource in a sustainable energy future is to be realised.

Waste to energy technology has been backed as an «affordable» way for municipalities to manage wastes and generate energy, with «almost no measurable effect on human health», according to scientists and industry experts at the recent Energy Recovery Symposium in Toronto, Cenergy technology has been backed as an «affordable» way for municipalities to manage wastes and generate energy, with «almost no measurable effect on human health», according to scientists and industry experts at the recent Energy Recovery Symposium in Toronto, Cenergy, with «almost no measurable effect on human health», according to scientists and industry experts at the recent Energy Recovery Symposium in Toronto, CEnergy Recovery Symposium in Toronto, Canada.

From the perspective of mainland energy recovery operators, it is stated that «Brexit could lead to a reduction in waste streams in their installations and therefore a decrease in the production of sustainable raw materials and renewable energy.»

Other programs such as waste - to - energy (WTE), which use the combustible energy from difficult to recycle plastics are widely used in Europe and Asia, and may provide additional recovery processes in the United States.

While multiple destinations fall under the definition of «food waste» for Tesco, food waste in this inventory only goes to the two marked with a green check: anaerobic digestion or controlled combustion (with energy recovery).

Currently we are diverting waste from landfills through food donation, organic recycling, energy recovery from cooking oil, and mixed and cardboard recycling.

An Australian brewery's waste water recovery plant, designed to achieve world's best practice standards of water reuse and green energy generation, has won a Mercury National Materials Handling Award for Best Green Initiative.

One of the United State's newest dairy processing plants features advanced waste water treatment technology that not only radically improves biomass recovery and effluent quality, but also harnesses green energy from waste streams to drive -LSB-...]

One of the United State's newest dairy processing plants features advanced waste water treatment technology that not only radically improves biomass recovery and effluent quality, but also harnesses green energy from waste streams to drive production processes and reduce its carbon footprint.

Definitions / joint understanding / valuation of what usage of materials is considered as food loss / waste (i.e. regarding energy recovery vs. feed vs. composting etc.).

The new deal between the Onondaga County Resource Recovery Agency and the company that runs its waste - to - energy plant in Jamesville calls for burning more trash, but OCRRA officials say that isn't a problem.

His doctoral supervisors, Professor Andrew Ball and Dr Fengshou Gu, suggested that he should work on an energy recovery device, addressing the issue that most of the energy contained in a vehicle's fuel is wasted.

These endeavors encompass those which provide for the production of conventional, alternative and renewable sources of energy, and for the recovery and reuse of energy that would otherwise be wasted.

Flexible thermoelectric devices are especially attractive for waste heat recovery along contoured surfaces and for energy harvesting applications to power sensors, biomedical devices and wearable electronics — an area experiencing exponential growth.

However, the introduction of a Kinetic Energy Recovery System (KERS) in 2009, which captured waste energy created under braking and transformed it into electrical energy, ensured the teams had an extra 80bhp or so to play with for just over six seconds Energy Recovery System (KERS) in 2009, which captured waste energy created under braking and transformed it into electrical energy, ensured the teams had an extra 80bhp or so to play with for just over six seconds energy created under braking and transformed it into electrical energy, ensured the teams had an extra 80bhp or so to play with for just over six seconds energy, ensured the teams had an extra 80bhp or so to play with for just over six seconds a lap.

It features an innovative Waste Heat Recovery (WHR) powered by Detroit that converts the engine's otherwise wasted heat into usable energy.

Energy - saving measures include an upgraded chiller plant which utilizes evaporative cooling systems and waste heat recovery, to reduce electricity consumption by 20 %.

Just in the U.S., if waste heat recovery devices were used at every oil, gas and manufacturing plant, 11.4 million homes could be powered by the electricity produced and it would have the bonus benefit of offsetting the need for the same amount of energy to be produced using fossil fuels.

Bottoming cycle: A waste - heat recovery boiler recaptures the unused energy and uses it to produce steam to drive a steam turbine generator to produce electricity.

The new study,» 2014 Energy and Economic Value of Municipal Solid Waste (MSW), including and Non-recycled Plastics (NRP), Currently Landfilled in the Fifty States,» found that the recovery of resources from waste, and hence, diverted from landfill, in the United States increased between 2008 and 2011.

is an introduction to waste management and energy recovery (Wikipedia).

JCM projects use Japanese technological expertise to deploy various approaches to reducing greenhouse gas emissions, such as the installation of energy - efficient transmission lines in Mongolia; the installation of energy - efficient systems in the national hospitals of Vietnam; the installation of energy - efficient refrigeration at commercial food processing centers in Indonesia; the installation of solar photovoltaic systems in the Maldives and Palau; and power generation by waste heat recovery in the cement industry in Indonesia.

When residue recovery and postconsumer waste are factored in, however, wood use for energy exceeds industrial roundwood production in several industrialized countries.

We are challenged by the positioning of goals such as «100 % of plastics recycled or recoverable by 2030» (American Chemistry Council, 2018) when waste - to - energy technologies are considered «recovery» strategies.

The Environment Division of the Department of Environment and Natural Resources with the Government of the Northwest Territories is responsible for the management of hazardous substances and waste, waste reduction and recovery programs, air quality, climate change, energy awareness / alternatives, and environmental assessment for mining and oil and gas projects.

Thus, Trump's budget might threaten projects like a $ 3.8 billion plant in Lake Charles, Louisiana, meant to turn oil - refinery waste into valuable chemical projects and to capture carbon for oil recovery; that project relies on a $ 2 billion Department of Energy loan.

The purpose of the Framework is to introduce a standardized and transparent methodology into industrial energy efficiency projects and practices including: system optimization, process improvements, waste heat recovery and the installation of on - site power generation.

The U.S. Energy Information Administration includes the following in U.S. primary energy production: coal production, waste coal supplied, and coal refuse recovery; crude oil and lease condensate production; natural gas plant liquids production; dry natural gas excluding supplemental gaseous fuels production; nuclear electricity net generation (converted to Btu using the nuclear plant heat rates); conventional hydroelectricity net generation (converted to Btu using the fossil - fuels plant heat rates); geothermal electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and geothermal heat pump energy and geothermal direct use energy; solar thermal and photovoltaic electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and solar thermal direct use energy; wind electricity net generation (converted to Btu using the fossil - fuels plant heat rates); wood and wood - derived fuels consumption; biomass waste consumption; and biofuels feedEnergy Information Administration includes the following in U.S. primary energy production: coal production, waste coal supplied, and coal refuse recovery; crude oil and lease condensate production; natural gas plant liquids production; dry natural gas excluding supplemental gaseous fuels production; nuclear electricity net generation (converted to Btu using the nuclear plant heat rates); conventional hydroelectricity net generation (converted to Btu using the fossil - fuels plant heat rates); geothermal electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and geothermal heat pump energy and geothermal direct use energy; solar thermal and photovoltaic electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and solar thermal direct use energy; wind electricity net generation (converted to Btu using the fossil - fuels plant heat rates); wood and wood - derived fuels consumption; biomass waste consumption; and biofuels feedenergy production: coal production, waste coal supplied, and coal refuse recovery; crude oil and lease condensate production; natural gas plant liquids production; dry natural gas excluding supplemental gaseous fuels production; nuclear electricity net generation (converted to Btu using the nuclear plant heat rates); conventional hydroelectricity net generation (converted to Btu using the fossil - fuels plant heat rates); geothermal electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and geothermal heat pump energy and geothermal direct use energy; solar thermal and photovoltaic electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and solar thermal direct use energy; wind electricity net generation (converted to Btu using the fossil - fuels plant heat rates); wood and wood - derived fuels consumption; biomass waste consumption; and biofuels feedenergy and geothermal direct use energy; solar thermal and photovoltaic electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and solar thermal direct use energy; wind electricity net generation (converted to Btu using the fossil - fuels plant heat rates); wood and wood - derived fuels consumption; biomass waste consumption; and biofuels feedenergy; solar thermal and photovoltaic electricity net generation (converted to Btu using the fossil - fuels plant heat rates), and solar thermal direct use energy; wind electricity net generation (converted to Btu using the fossil - fuels plant heat rates); wood and wood - derived fuels consumption; biomass waste consumption; and biofuels feedenergy; wind electricity net generation (converted to Btu using the fossil - fuels plant heat rates); wood and wood - derived fuels consumption; biomass waste consumption; and biofuels feedstock.

It includes information on municipal solid waste (MSW) generation, recycling, combustion with energy recovery and landfilling.

GHG emissions from waste are directly affected by numerous policy and regulatory strategies that encourage energy recovery from waste, restrict choices for ultimate waste disposal, promote waste recycling and re-use, and encourage waste minimization.

Moreover, waste prevention, minimization, material recovery, recycling and re-use represent a growing potential for indirect reduction of GHG emissions through decreased waste generation, lower raw material consumption, reduced energy demand and fossil fuel avoidance.