Thermal Conversion Systems for Municipal Solid Waste (Pollution Technology Review) ePub download
by H. L. Jr. Hickman,W. D. Turner,R. Hopper,F. Hasselriis,J. L. Kuester,Tre
- ISBN: 0815510012
- ISBN13: 978-0815510017
- ePub: 1951 kb | FB2: 1385 kb
- Language: English
- Category: Engineering
- Publisher: Noyes Pubns (October 1, 1984)
- Pages: 746
- Rating: 4.3/5
- Votes: 293
- Format: azw rtf lit mbr
Technical Report Hickman, .
Included in the discussion are those pure-pyrolysis and n processes that produce either a final product or a synthesis gas for further processing. Technical Report Hickman, . The development and current status of systems for the preparation, combustion, and direct recovery of energy from refuse-derived fuel (RDF) produced from municipal solid waste are described.
Recycling municipal solid waste is a source of materials and energy. In general, MSW, also referred to as household waste, consists of everyday items like glass, plastics, metals, textiles, organics, and paper discarded by the modern society. Bezner engineers, builds, and supplies customized sorting and recycling equipment. This composition contains a large portion of valuable products, compost and high calorific materials (refuse-derived fuel (RDF)) that, once extracted by mechanical treatment or degraded by biological treatment, offers a wide range of new resources.
Municipal solid waste (MSW), commonly known as trash or garbage in the United States and rubbish in Britain, is a waste type consisting of everyday items that are discarded by the public. Garbage" can also refer specifically to food waste, as in a garbage disposal; the two are sometimes collected separately. In the European Union, the semantic definition is 'mixed municipal waste,' given waste code 20 03 01 in the European Waste Catalog.
Solid waste pollution is when the environment is filled with nonbiodegradable and non-compostable biodegradable wastes that are capable of emitting greenhouse gases, toxic fumes, and particulate matters as they accumulate in open landfills. These wastes are also capable of leaching organic or chemical compositions to contaminate the ground where such wastes lay in accumulation
Emerging technologies include gasplasma, thermal cracking, thermal oxidation and waste-to-fuels technology.
Emerging technologies include gasplasma, thermal cracking, thermal oxidation and waste-to-fuels technology. WTE Facility Discharges The report includes a discussion of typical discharges from WTE facilities, including emissions to the atmosphere, liquid effluent, and solid residues. Point source air emissions (from stacks) and fugitive emission sources are described. The management of liquid wastes produced by WTE facilities is described. The primary potential sources of liquid wastes are certain air pollution control equipment (wet scrubbers). Liquid wastes typically require on-site treatment prior to recycling and/or discharge to the sanitary sewer system.
This book presents an overview of the technology that allows millions and millions of tons of municipal solid waste .
This book presents an overview of the technology that allows millions and millions of tons of municipal solid waste generated globally to be perceived as an asset which, after materials recovery for recycling, can be used to generate clean power, transport fuels that can substitute fossil fuels, and value-based chemicals with minimal environmental impact. This text by Dr. Jayarama Reddy details the myriad technologies developed over the years to thermally process municipal solid waste (MSW) streams for power generation.
Waste management (or waste disposal) are the activities and actions .
Waste management (or waste disposal) are the activities and actions required to manage waste from its inception to its final disposal. This includes the collection, transport, treatment and disposal of waste, together with monitoring and regulation of the waste management process. Waste can be solid, liquid, or gas and each type has different methods of disposal and management Contents.
The emerging developments in the two primary conversion pathways, namely the thermochemical (. gasification, liquefaction, and pyrolysis) and biochemical (. anaerobic digestion, alcoholic fermentation and photobiological hydrogen production) conversion techniques, are evaluated