plasma gasification Articles
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Feasibility of a CHP driven industrial park based on exergy analysis
Industrial zones are manufacturing plants clustered in a given part of a city. Such clustering is primarily dictated by zoning regulations that tend to isolate residential, business, and industrial neighbourhoods. A number of properly matched manufacturing plants can be clustered within a given proximity with a primary objective of optimising their energy use. As secondary goals the cluster may ...
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Feasibility analysis for biomass in cities, counties and facilities
The commercial waste industry includes all those who collect waste from the simplest “collect waste and transport to a landfill” to the more complex “collect waste and process into re-usable components and energy.” This article will cover how we can collect material and fuel a clean energy system for our immediate future, while saving clean water and air. Why Use Biomass? ...
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Plasma gasification and vitrification of ash – conversion of ash into glass-like products and syngas
The Plasma Gasification and Vitrification of Ash (PGVA) system is a patented process that uses energy generated by plasma arcs along with the controlled addition of small amounts of air and steam to convert the organic portion of ash into a synthesis gas (gasification) and the inorganic portion into a glassy rock (vitrification). The vitrification of the ash’s inorganic portion ...
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Determining the viability of a waste-to-energy plant in Africa
Nick Mannie, Aurecon’s waste expert, was invited to deliver a keynote presentation at the African Waste Week conference in early September at the Cape Town International Convention Centre in Cape Town, South Africa. Mannie discussed the development and execution of robust feasibility plans to determine the viability of a waste-to-energy plant. “Waste energy is very topical at the ...
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The Middle East should think twice about fracking
Securing energy resources is critical for fuelling development, but deciding which types of energy to invest in will affect a country’s future in many ways — and not all are good when it comes to shale gas. Four countries in the Middle East and North Africa (MENA) — Egypt, Jordan, Saudi Arabia and Tunisia — are planning to extract shale gas, and one, Algeria, is said to ...
By SciDev.Net
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Plasma resource recovery technology –converting waste to energy and valuable products
Abstract Plasma Resource Recovery (PRR) is a revolutionary technology that can treat virtually any type of waste by combining gasification with vitrification. Vitrification produces inert slag that can be used as a construction material. Gasification produces a fuel gas containing carbon monoxide (CO) and hydrogen (H2), used for cogeneration of electricity and steam. The plasma fired eductor ...
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Advanced Plasma Power receives planning permission for its waste to energy project in Tyseley
Advanced Plasma Power (APP), the advanced waste to energy and fuels company, has received planning permission for its proposed 6MW commercial Gasplasma® waste to energy plant in Tyseley, Birmingham. This achievement represents a key milestone in the Energy Technologies Institute (ETI) competition, to design the most cost-effective, economically viable and efficient commercial energy from ...
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Converting waste into valuable resources with the Gasplasma process
Abstract This paper reports on a novel process development to convert waste into renewable energy using gasification. Advanced Plasma Power (APP) has developed an advanced thermal conversion technology, (Gasplasma ), capable of treating a wide range of organic and inorganic wastes. In the two-stage thermal process, the fluidised bed gasifier (FBG) converts the waste to a crude syngas containing ...
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