2 edition of Treatment of wastewater from the production of polyhydric organics. found in the catalog.
Treatment of wastewater from the production of polyhydric organics.
Dow Chemical Company. Texas Division.
by U.S. Environmental Protection Agency]; for sale by the Supt. of Docs., U.S. Govt. Print. Off. in Washington
Written in English
|Statement||[Prepared] for the Office of Research and Monitoring, Environmental Protection Agency. [Authors: M. A. Zeitoun and W. F. McIlhenny.|
|Series||Water pollution control research series|
|Contributions||Zeitoun, M. A., McIlhenny, W. F., United States. Environmental Protection Agency. Office of Research and Monitoring.|
|LC Classifications||TD899.C5 D68|
|The Physical Object|
|Pagination||x, 198 p.|
|Number of Pages||198|
|LC Control Number||72601349|
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Get this from a library. Treatment of wastewater from the production of polyhydric organics. [M A Zeitoun; W F McIlhenny; Dow Chemical Company. Texas Division.; United States. Environmental Protection Agency. Office of Research and Monitoring.] -- A number of extremely useful and widely produced compounds are produced by the alkaline hydrolysis of chlorohydrins such as ethylene and propylene.
Coal chemical wastewater has such characteristics as high concentration of oil, ammonia nitrogen and COD. In this paper, treatment process of coal chemical industry is described mainly, such as. The effect of saline wastewater is more pronounced on autotrophic microbial communities responsible for nitrogen removal in biological wastewater treatment processes (Wang et al., a,b) due to.
Wastewater treatment by rooted aquatic plants in sand and gravel trenches / (Cincinnati, OH: U.S. Environmental Protection Agency, Municipal Environmental Research Laboratory: Center for Environmental Research Information [distributor], ), by Pamela R.
Pope and Municipal Environmental Research Laboratory (page images at HathiTrust). Treatment of hypersaline wastewater in SBR degradation of aromatic compounds such as phenol requires iron dependent monoxgenase enzymes and electron transfer proteins (Lankford, ).
Iron poor environments would limit the ability of microor- ganisms to metabolize phenol, and may affect the metabolism of other by: DEVELOPMENT DOCUMENT for EFFLUENT LIMITATIONS GUIDELINES and NEW SOURCE PERFORMANCE STANDARDS for the MAJOR ORGANIC PRODUCTS SEGMENT OF THE ORGANIC CHEMICALS MANUFACTURING POINT SOURCE CATEGORY Russell E.
Train Administrator James L. Agee Acting Assistant Administrator for Water and Hazardous Materials Allen Cywin Director, Effluent. These combinations are production groups 95% and 90%. Thus, the combinations chosen are optimal for flow discrimination at OCPSF plants, a variable which relates to the size and construction costs of a plant's wastewater treatment system.
Production, in this analysis, is measured in million pounds per year and includes all OCPSF products. Research highlights Industrial wastes have been investigated for heavy metals removal from wastewaters.
Fly ash, waste slurry, red mud, lignin, sugar beet pulp, blast furnace slag, tea industry waste, and sugar cane bagasse have been proven to be a promising material. For efficient utilization of these industrial wastes as potential adsorbents newer technology should be developed.
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The influence of the degree of wastewater coagulation-flocculation and supercritical water oxidation (SCWO) methodsisconsidered. The regularities of changes in the composition of the purity of the reagents used and the parameters of SCWO are established. Based on the results of chromatographic analysis of the effluent after washing the mass rape, it is found that the achievement of the Cited by: 2.
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Labels related to the crop - Aquatic, Wastewater, Impounded. Chapter 3 Industrial Organic Chemistry 1 INTRODUCTION The chemical process industries play an important role in the development of a country by providing a wide variety of products and use raw material derived from petroleum and natural gas, salt, oil and fats, biomass and energy from coal, natural gas and a small percentage from renewable energy resources.
Nanoporous materials exhibit wide applications in the fields of electrocatalysis, nanodevice fabrication, energy, and environmental science, as well as analytical science. In this review, we present a summary of recent studies on nanoporous membranes for water purification application.
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The researchers believe that biological treatment plus ozone can reduce the amount of sludge coming from wastewater treatment plants by a factor of ten. Biological processes are one of the cheapest ways to treat industrial wastewater, but pollutants in industries such as leather, textiles and pharmaceuticals are not easy for microbes to break down.
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Adsorption onto AC is widely used for wastewater treatment. Various adsorbents prepared from AC and low-cost adsorbents used in wastewater treatment were reported by Lin and Juang. Thus, AC is used in the control of color and odors and in the removal of organic compounds or trihalomethane precursors, chlorine, and toxic compounds in by: This book is a single source of information on treatment procedures using biochemical means for all types of solid, liquid and gaseous contaminants generated by various chemical and allied industries.
This book is intended for practicing environmental engineers and technologists from any industry as well as researchers and professors.Microbial biomass production, enzyme, Antibiotic and steroid fermentations, Food & Beverage fermentation, Ethanol production from conventional and non-conventional sub-strates, Industrial wastewater treatment, Bioenergy production.
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