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Environmental pollution control

Environmental Pollution Control. The cement iadustry has had an iatensive program of capital expenditure to iastaH dust collection equipment on kilns and coolers siace the 1970s (60). Modem equipment collects dust at 99.8% efficiency. Many smaller dust collectors are iastaHed ia aew plants (61). [Pg.293]

Environmental Pollution Control Alternatives Centralized Waste Treatment Alternatives for the Electroplating Industry, Jime 1981 625/5-81-017. [Pg.593]

Environmental Pollution Control Alternatives Municipal Wastewater, 1976 625/5-76-012 ERIC W437 NTIS PB95-156709. [Pg.593]

Environmental Pollution Control Alternatives Sludge Handling, Dewatering, and Disposal Alternatives for the Metal Finishing Industry, October 1982... [Pg.593]

A. D. McKnight, P. K. Marstrand and T. C. Sinclair (eds.). Environmental Pollution Control, Chap. 5 Pollution of inland waters Chap. 6 The Law relating to pollution of inland waters George, Allen and Unwin, London, 1974. [Pg.622]

Explain what primary and secondary measures are in the context of environmental pollution control. [Pg.412]

Catalysis plays a prominent role in our society. The majority of all chemicals and fuels produced in the chemical industry have been in contact with one or more catalysts. Catalysis has become indispensable in environmental pollution control selective catalytic routes are replacing stoichiometric processes that generate waste problems. The three-way catalyst effectively reduces pollution from car engines. Catalytic processes to clean industrial exhaust gases have been developed and installed. In short, catalysis is vitally important for our economy now, and it will be even more important in the future. [Pg.16]

Sengupta, A. K. (ed.) Ion Exchange Technology Advances in Environmental Pollution Control Technomic Publishing Co, Lancaster, Pennsylvania, 1995. [Pg.1073]

Perovskite-based catalysts for environmental pollution control The role of electron microscopy... [Pg.206]

Van Kreijl, C. F. Slooff, W. In Mutagenicity Testing in Environmental Pollution Control Zimmermann, F. K. Taylor-Mayer, R. E., Eds. Ellis Horwood Limited Chichester, 1985 pp 86-104. [Pg.70]

Table 3.1. Existing laws on environmental pollution control and protection in China... Table 3.1. Existing laws on environmental pollution control and protection in China...
Environmental Pollution Control. The importance of chemical oxidation of reduced sulfur compounds lies in its application to treatment of wastes-treams from municipal sewage systems, acid mine drainage and industrial plants such as tanneries, paper and pulp mills, oil refineries and textile mills. [Pg.554]

Granular activated carbon (GAC) has been used widely in environmental pollution control due to its capability to absorb a broad range of organic and inorganic compounds. To properly design a GAC column, information regarding accurate kinetic data of intraparticle diffusion rate parameters is required. Intraparticle diffusion is, however, a complicated process that includes at least two parallel mechanisms pore difihision and surface diffusion [7]. [Pg.249]

The readers are referred to new references (46-49) and US governmental reports (50-59) for modem site remediation technologies. For completion of a successful site remediation project, all aspects of environmental pollution control (air, noise, water, and soil) must be considered. Oxidation chemically converts hazardous contaminants to non-hazardous or less toxic compounds that are more stable, less mobile, and/or inert. The oxidizing agents most commonly used are ozone, hydrogen peroxide, hypochlorites, chlorine, and chlorine dioxide (46,47). Figme 3 shows a typical chemical oxidation system for site remediation. [Pg.499]

Strictly Implementing Code for Indoor Environmental Pollution Control of Civil Building Engineering Work in the Survey, Design, and Construction... [Pg.241]

The need for such sensors is unquestioned whether one is concerned with environmental pollution control, general air management, e.g., in airplanes or other closed rooms, or with the detection of bio-hazards, the food industry, the cosmetic industry - the list of potential customers is endless. [Pg.109]

The ingredients of biotechnology applicable to environmental pollution control and abatement have so far been confined to classical methods of treatment of wastes, both liquid and solid. Elimination of toxic chemicals from the source of their generation has been an important and widely researched area but with little large-scale application concerning domestic wastes or industrial effluent. A few recently introduced studies at NEERI are directed to concern with environmental biotechnology such as ... [Pg.111]

See other pages where Environmental pollution control is mentioned: [Pg.2210]    [Pg.430]    [Pg.656]    [Pg.339]    [Pg.6]    [Pg.67]    [Pg.223]    [Pg.6]    [Pg.151]    [Pg.220]    [Pg.300]    [Pg.154]    [Pg.17]    [Pg.60]    [Pg.223]    [Pg.451]    [Pg.1966]    [Pg.71]    [Pg.119]    [Pg.256]    [Pg.696]    [Pg.2453]    [Pg.460]    [Pg.255]    [Pg.293]   
See also in sourсe #XX -- [ Pg.554 , Pg.555 , Pg.556 ]

See also in sourсe #XX -- [ Pg.195 ]



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