Sentences with phrase «industrial waste energy»
Not exact matches
With more than 3,000 employees, over 90 service locations and 17 waste management facilities in eight provinces, Clean Harbors is a leading provider of environmental, energy and industrial services and hazardous waste management services throughout Canada.
https://www.cleanharbors.com/
With more than 90 service locations and 17 waste management facilities in eight provinces, Clean Harbors is a leading provider of environmental, energy, industrial services and hazardous waste management services throughout Canada.
CST Wastewater Solutions Managing Director Mr Michael Bambridge said the award further demonstrated the enormous potential of new - generation technologies to transform waste water byproducts from an industrial disposal expense into green energy profits.
Underperforming open industrial waste water treatment lagoons are on the way out after more than a century, as industry counts the cost of their pollution, odours, leakage, energy wastage and relative inefficiency in fixing the problems they set out to address.
GWE is headed by green Global Water Engineering CEO and Chairman Mr Jean Pierre Ombregt, who has been a world leader in anaerobic digestion of industrial effluents and green energy solutions for more than 35 years and whose company has been involved in more than 300 water and waste water projects in Asia, Africa, North and South America, Australia, China, Europe (including Eastern Europe) and Russia.
Underperforming open industrial waste water treatment lagoons are on the way out after more than a century, as industry counts the cost of their pollution, odours, leakage, energy wastage and relative inefficiency in fixing the -LSB-...]
Tags: anaerobic digestion, biogas, food waste operators, crop operators, beis, Ofgem, industrial strategy, Climate Change Act, paris agreement, energy costs, greg clark, renewable financial incentives, thom koller
There are high hopes that such designer clathrates can be technologically applied in the future, to turn industrial waste heat into valuable electrical energy.
The new findings should help scientists harness the abundant energy currently stored in waste from agricultural, municipal and industrial sources.
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.
Catalytic micro-reactors may provide green chemistry alternatives — less chemical waste, lower cost and minimal energy waste — to conventional, industrial - sized reactors because they make it easier to control the chemical - reaction conditions and operate the reactor closer to optimal conditions.
In addition to traditional asphalt concrete and cement concrete, the researchers also assessed several other material alternatives, such as reflective coatings and the use of industrial waste products like slag and fly ash, to replace some of the energy - intensive cement in cement concrete.
Co-generation of electricity and use of industrial waste heat to reduce per capita energy consumption.
Regrettably at a wasted cost of several trillions of dollars and having left much of the developed world with a deficient energy production system and handed industrial soverienty over to the developing nations.
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.
Vertex Energy, Inc. engages in the recycle of industrial waste streams and off - specification commercial chemical products.
Vertex Energy Inc is an environmental services company that recycles industrial waste streams and off - specification commercial chemical products.
But if we replace these sources of energy with others that allow us to continue modern industrial society's implicit program of turning everything on earth into toxic waste, success against GW will be a rather hollow victory (not that I think any kind of real total «success» on this front is really possible at this point in any human time scale).
the chart fails to show that soy from brazil, the stuff served in that meatless urban restraunt menu, has many times the embodied energy of eating local grass fed beef, that the corn suggested as least energy consuming is only so due to vast scales of industrial monocroping that wipes out diversity and local edible foods habitat (and is used largely for pig and cow fodder if not biofuels, and so lays waste to half the midwest), that milk from a pastured cow or goat, or eggs from pastured chickens, are gaining thier energy from sources no human could eat.
• Expands the President's Better Building Challenge, focusing on helping commercial, industrial, and multi-family buildings cut waste and become at least 20 percent more energy efficient by 2020;
The difference is cultural: Composting has been branded as a hippie activity — and therefore politically advantageous to rally conservatives against — while waste - to - energy is industrial and practical - seeming.
Since the fabric is made out of the industrial waste from flax fibre, it doesn't use any extra natural resources and requires little energy to produce.
The heat source can be solar energy, waste industrial heat, warm sea water or simply warm humid air.
No mention of course, that wind turbines need a constant backup source of energy, usually in the form of a conventional power plant, or that the production of these hundred - ton industrial machines creates one ton of hazardous and toxic waste PER turbine blade (according to a report from VESTA wind turbine manufacturer).
Chapter 4 addresses the energy supply sector, including carbon capture and storage; Chapter 5 transport and associated infrastructures; Chapter 6 the residential, commercial and service sectors; Chapter 7 the industrial sector, including internal recycling and the reuse of industrial wastes; Chapters 8 and 9 the agricultural and forestry sectors, respectively, including land use and biological carbon sequestration; Chapter 10 waste management, post-consumer recycling and reuse.
Tell them to stop wasting our money on the environmentally destructive consumer fraud that is industrial wind energy.
This article appeared in the December 2016 edition of Carbon Capture Journal Introduction Finding ways to convert carbon dioxide from an energy and industrial sector waste product to a useful commodity could spur the development of new technologies, products, and...
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..
But there is another vast source of wasted energy in industrial countries that could be tapped.
(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.
When residue recovery and postconsumer waste are factored in, however, wood use for energy exceeds industrial roundwood production in several industrialized countries.
Finding ways to convert carbon dioxide from an energy and industrial sector waste product to a useful commodity could spur the development of new technologies, products, and industries while limiting emissions to the atmosphere of climate - altering pollutants.
Project activities can include but are not limited to: transportation; combined heat and power; energy; livestock and agricultural; waste and wastewater; industrial sector; sequestration, including wood product substitution; and other activities on a technology - neutral basis.
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 21.1 MW ground - mount installation is comprised of 78,144 Kyocera solar modules and was developed on the land of an industrial waste disposal facility, which was abandoned and later repurposed for the renewable energy project.
However, big cities offer opportunities for co-generation of electricity and use of industrial waste heat to reduce per capita energy consumption.
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 letter explains why large - scale industrial production of transport fuels and other energy from plants such as corn, sugar cane, oilseeds, trees, grasses, or so - called agricultural and woodland waste threatens forests, biodiversity, food sovereignty, community - based land rights and will worsen climate change.
«Solutions exist with sustainable transport in cities, solid waste management, access to clean household fuels and cook - stoves, as well as renewable energies and industrial emissions reductions.»
The table below shows data compiled by the International Energy Agency, which estimates carbon dioxide emissions from the combustion of coal, natural gas, oil and other fuels, including industrial waste and non-renewable municipal waste.
Comprehensive policies directed at reducing greenhouse gas emissions from sources other than energy, for example waste, industrial emissions, fugitives, land - use change, deforestation and agriculture.
Industrial wind installations, factories, create energy sprawl and high levels of environmental pollution and toxic waste
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.
Other chapters in this volume address pre-consumer GHG emissions from waste within the industrial (Chapter 7) and energy (Chapter 4) sectors which are managed within those respective sectors.
With one of the largest practices in the region, Walker Morris LLP draws on its considerable resources to provide a wide variety of expertise to clients from the food and drink, retail, waste and energy, healthcare, technology and IT, industrials and financial services sectors.
Represented industrial client operating a waste - to - energy facility in effort to stay the revocation of air emission operating permits.