Sentences with phrase «process industrial wastes»

The plant will process industrial wastes that would...

Methanol production is also experiencing a global resurgence, particularly in China where the finished product — typically extracted from solid waste / biomass, but also from natural gas and coal feedstocks — is widely used in chemical production and industrial processes, as well as in blended vehicle fuel.

Recently, FPA attended a public hearing on the EPA's proposed rules to reduce emissions of toxic air pollutants from existing and new industrial, commercial, and institutional boilers, process heaters and solid waste incinerators

The Global Water Engineering (GWE) anaerobic digestion technologies — to be featured on Stand S9 — extract biogas from virtually any biological waste stream, including municipal food wastes from restaurants, food service facilities, grocery stores, and municipal solid waste, as well as organic wastes from industrial processing facilities, food and beverage plants and agribusinesses.

Unfortunately, mining, waste incineration, and other industrial processes release unsafe quantities of mercury into the environment.

But the folks at Changing World Technologies, the company behind the process of changing waste into oil, must first prove they can successfully scale up from a 7 - ton - per - day pilot plant in Philadelphia to a 200 - ton - per - day industrial plant in Carthage, Missouri.

After working the land locally for a quarter of a century, he watched in despair as Fukushima Prefecture, where Minamisoma is located, licensed an industrial - waste processing plant close to his five - acre farm.

This reaction is the enzymatic version of a second significant chemical process — Fischer - Tropsch synthesis of hydrocarbons which can be used on a large scale to synthesize fuels from industrial waste gases, for instance.

They also must control mercury air emissions from coal - fired power plants, waste incineration and related industrial processes, and reduce or eliminate mercury use in small - scale gold mining and chemical manufacturing.

Thus, in addition to the so - called «Haber - Bosch process of nitrogen fixation,» nitrogenase also stimulates a reaction corresponding to the «Fischer - Tropsch synthesis of hydrocarbons,» which can be used on a large scale to synthesize fuels, for instance from industrial waste gases..

«The availability of waste heat is widespread, from industrial processes, to solar heat, and even the heat coming out of vehicles, and it's usually just wasted.»

On top of that, some 50 % of Si is actually discarded as industrial waste in the final cutting process.

Thermal salt - removing processes require high temperatures so they tend to be expensive (more than $ 1 per cubic meter of freshwater), but the use of rejected «waste» heat from other industrial or power plant operations for co-generation can cut energy expenditure.

Every year 10 gigawatts of potential power are squandered as waste heat from industrial processes — enough to light 10 million homes.

The merger would then help fuel China's shift toward even more hog farms that adopt Smithfield's vertically integrated processes — namely, industrial - size farms that raise pigs in close quarters and dispose of their waste through the lagoon - and - spray method, thereby threatening to reproduce the same health and antibiotic - resistance issues in China.

In January 2013 Tom returned to the group as the Technical Liaison Officer for the newly established Industrial Engagement Facility on the WasteValor project — helping turn food industry wastes into raw materials for other processes.

In this regard, we compete with large integrated animal and food processors and independent renderers, such as Baker Commodities, Darling International and Griffin Industries, each of which process inedible wastes from meat and poultry processors into animal feed, consumer food and fats for industrial applications.

Summary: Gibbsite (α - Al (OH) 3) is an important natural and industrial material that is used in a wide variety of energy applications, and is a significant component of some of the high - level nuclear waste stored in large quantities at the Hanford Site, Washington, U.S.A., and at the Savannah River Site, South Carolina, U.S.A. Industrial - scale processing of these materials requires an understanding of their behavior in highly alkaline solutions (often called Bayer liquors); processing of slurries and precipitates from these liquors is facilitated by controlling the nanoparticulate gibbsite mindustrial material that is used in a wide variety of energy applications, and is a significant component of some of the high - level nuclear waste stored in large quantities at the Hanford Site, Washington, U.S.A., and at the Savannah River Site, South Carolina, U.S.A. Industrial - scale processing of these materials requires an understanding of their behavior in highly alkaline solutions (often called Bayer liquors); processing of slurries and precipitates from these liquors is facilitated by controlling the nanoparticulate gibbsite mIndustrial - scale processing of these materials requires an understanding of their behavior in highly alkaline solutions (often called Bayer liquors); processing of slurries and precipitates from these liquors is facilitated by controlling the nanoparticulate gibbsite morphology.

Whether for energy applications or nuclear waste management, industrial processing of aluminum requires understanding its behavior in highly alkaline solutions.

He is also the author of 12 patents for the preparation of aqueous suspensions at high concentration of particulate, for the therapy and photodynamic diagnosis of tumors, for the conservation of the cultural heritage, for the setup of a new process for the treatment of textile industrial waste, for production of emulsions from Bio Crude Oil, for production of nanoparticles and novel nano - coatings via flame - spraying, and using homogeneous and heterogeneous solutions.

The World Health Organization has advocated for strict control over industrial and waste management processes to reduce dioxin formation.

She is constantly seeking solutions for industrial waste through appropriating textiles processes.

However, when sewage is strong (like many industrial wastewaters and feedlot waste (manure) there is no reason to treat this waste by anaerobic process and create excess methane to be used somewhere else.

[7] Power plant efficiency can also be greatly improved by using «combined heat and power» systems that use waste heat from the combustion process for space heating or industrial applications, [8] or by using a «combined cycle» that uses the waste heat to power a steam turbine and make more electricity.

Industrial infrastructure will be reoriented towards more biological inputs, but would also be accepting of what William McDonough and Michael Braungart dub «technical nutrients,» so that non-bio based «waste» of one industrial process becomes «food» foIndustrial infrastructure will be reoriented towards more biological inputs, but would also be accepting of what William McDonough and Michael Braungart dub «technical nutrients,» so that non-bio based «waste» of one industrial process becomes «food» foindustrial process becomes «food» for another.

These best case figures Don't include processing the full range of biomass waste products available, from landfill biomass, sewage, food processing residues, forestry and woodworking residues, other agricultural residues, and industrial biomass residues, etc..

A major driver in these efficiency gains has been our increased investment in cogeneration — a technology enabling us to capture heat generated from electricity production that is otherwise wasted, and use it in other industrial processes.

3) Accelerated capital cost allowance has been expanded to include investment in technologies that generate electricity using waste heat from industrial processes.

Faced with the lawsuit, the company overhauled its industrial process and eliminated most of its waste products, which turned out to be a money - saving move.

Note that the «Net emissions / removals» mean «total emissions» in the case of sectors including energy, industrial processes, solvent and other product use, agriculture and waste while it refers to «net emissions / removals» for LULUCF and Other sectors.

Wood, Wood Waste, Other Solid Waste: Covers purpose - grown energy crops (poplar, willow etc.), a multitude of woody materials generated by an industrial process (wood / paper industry in particular) or provided directly by forestry and agriculture as well as wastes such as straw, rice husks, crushed grape dregs etc..

89 Until we get zero waste, however, the methane (natural gas) produced in existing landfills as organic materials in buried garbage decompose can also be tapped to produce industrial process heat or to generate electricity in combined heat and power plants.

(10.3) In 2010, industrial GHG emissions were comprised of direct energy ‐ related CO2 emissions of 5.3 GtCO2eq, 5.2 GtCO2eq indirect CO2 emissions from production of electricity and heat for industry, process CO2 emissions of 2.6 GtCO2eq, non ‐ CO2 GHG emissions of 0.9 GtCO2eq, and waste / wastewater emissions of 1.5 GtCO2eq.

Joule's feedstock is waste CO2 from industrial processes and with further improvements can be CO2 obtained directly from the air.

Climate Change Minister Greg Combet said emissions decreased one per cent in the six months to December 2012 — the period since the introduction of the carbon price — for the major sectors covered by the scheme — electricity, other stationary energy, fugitives, industrial process emissions and waste.

The industrial facilities covered by the analysis include large power plants, refineries, manufacturing combustion and industrial processes, waste and certain agricultural activities.

In addition, the process uses waste CO2 as a feedstock, allowing industrial emitters to produce valuable fuels rather than discard emissions or employ costly measures for capture and sequestration.

The organic waste and wastewater from domestic, industrial or agricultural process can be used for the purpose.

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.

Running a steam turbine requires more heat than about 90 % of industrial processes waste.

Waste disposal for DSI may also be a significant variable cost, while the waste products from an FGD system can be sold as feedstock for industrial processes.

The central heat sources can be waste - heat recovery at industrial processes, waste - incineration plants, cogeneration power plants or stand - alone boilers burning fossil fuels or biomass.

The waste feedstocks for the process will most likely come from a mixture of sources ranging from food scraps and other household material such as grass and tree cuttings, to agricultural and industrial waste.

Sources of heat include: industrial and process sources such as power stations, industrial processes (such as chemical industries, clinical waste incinerators and food producers), building cooling systems and refrigeration (such as offices, supermarkets and data centres), sewerage systems and water treatment works, London Underground tunnels and electricity substations; and environmental sources — air, ground, water (that retain solar heat).

This approach can be extended to a complete industrial ecosystem, e.g. recycling «waste» outputs from industrial and agricultural processes as feedstock or energy inputs for other industries and users - cascading and integrating to increase overall materials and energy efficiency, and, where possible topping up with renewables to drive the system.

Mr. Orme has extensive experience (over 30 years) applying process engineering knowledge to pilot and full - scale chemical processing and waste treatment facilities for industrial clients and U.S. Government sites including conceptual studies preliminary and final designs equipment specification process testing and operations.

Extensive experience in environmental health and safety management, hazardous waste management and investigations involving a multitude of industrial processes, Embraces new challenges and demonstrates continuous improvement principles in work and professional development areas.

Environmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academic study