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Water technology

J. W. Cobble and S. W. Lin, in P. Cohen, ASME Handbook on Water Technology for Thermal Power Systems, ASME, New York, 1989, Chapt. 8. [Pg.371]

U.S. Environmental Protection Agency, demonstration Bulletin CAW-OX Ultraviolet Oxidation Process, Magnum Water Technology, EPA/540/MR-93/520, Cincinnati, Ohio, 1993. [Pg.173]

The European Desalination Society, formed recendy, is the successor of the European Eederation of Chemical Engineers Working Party on Desalination and Water Technology. The latter organisation has held seven symposia in different parts of the wodd, and thek pubUshed proceedings contain much valuable material (32). [Pg.240]

Environmental Science and Engineering, Inc., Eemoval of Volatile Organic Chemicals from Potable Water—Technologies and Costs, Noyes Data Coip., Park Ridge, N.J., 1986, pp. 23-40. [Pg.537]

C. C. Patton, Applied Water Technology, CampbeU Petroleum Series, Norman, OHa., 1986, pp. 11—W. [Pg.153]

Ostroff, A. G., Introduction to Oilfield Water Technology, National Association of Corrosion Engineers, Houston, 1979. [Pg.1382]

Jones, L. W., Corrosion and Water Technology for Petroleum Producers, Oil and Gas Consultants International Inc., Tulsa, Oklahoma, 1988. [Pg.1383]

Boffardi, Bennett P. Water Treatment for HVAC R Systems. Practical Guide, Association of Water Technologies, USA, 1999. [Pg.764]

Cavano, Robert. Panel Discussion on Oxygen Scavengers Non-Sulfite Alternatives. Association of Water Technologies 5th Annual Convention, USA, 1992. [Pg.764]

Cavano, Robert. Amine Volatility and Flammability. The Analyst, Association of Water Technologies, Winter 1998. [Pg.764]

Clayton, Dennis (Utility Chemicals, Inc.). Amines Demand, Selection. Prediction, Compliance. Presented to Association of Water Technologies, Traverse City, Michigan, USA, October 1997. [Pg.764]

Gandhi, Ashish (Cortec Corporation). Volatile Corrosion Inhibitors Unique Water Treatment Applications. The Analyst, Journal of the Association of Water Technologies, USA, Fall 2000. [Pg.765]

Gottlieb Michael, C. The Practical Aspects of Ion Exchange in the Service Dl Industry. Water Technology , Vol. 11, February/March 1989. [Pg.766]

Painter, John C. (Ecolochem). Benefits of Non-Capital Makeup Systems. NUS Clearwater Florida Makeup Water Technologies Seminar, USA, 1993. [Pg.768]

Robbins, C. J. (Elf Atochem North America). Condensate Line Control/ Humidification Considerations. Presented to Association of Water Technologies, Franklin Plaza, Philadelphia, Pennsylvania, USA, April 1994. [Pg.769]

The Hiils process is also based on the light-water technology. Sulfoxidation is followed by the separation and degassing of the raw acid. One of the main... [Pg.149]

FIGURE 6.8 Top and side views of the flotation-filtration unit. (Taken from Krofta, M. and Wang, L.K., Flotation Engineering, Technical Manual Lenox/1-06-2000/368, Lenox Institute of Water Technology, Lenox, MA, 2000.)... [Pg.252]

Ostroff, A.G., Introduction to Oil Field Water Technology, Prentice-Hall, Englewood Cliffs, NJ, 1965. [Pg.849]

Case VI Resource Recovery Facility of Lenox Institute of Water Technology (LIWT), Lenox, Massachusetts... [Pg.905]

Wang, L.K., Yoo, S.H., and Hong, Y.N., Development of Two-Stage Physical-Chemical Process System for Treatment of Pulp Mill Wastewater, Lenox Institute of Water Technology, Lenox, M A, Technical Report LIR/05-84/2, 1984, 64 p. [Pg.911]

Many pilot-scale and full-scale trials involving the use of secondary flotation (Krofta Supracell) in activated sludge treatment plants were conducted by KEC and Lenox Institute of Water Technology (LIWT) (formerly Lenox Institute for Research). Only partial operational data are selected for presentation in this chapter. The readers are encouraged to contact the authors for details. In the illustration of each case history, the true names of the company and its resident engineer involved are omitted for the protection of the Company s privacy. [Pg.1175]

An improved solidification (cementation) technology has been used by Dr. Lawrence K. Wang of the Lenox Institute of Water Technology, Massachusetts, USA, for successful solidification of mercury-containing batteries in concrete blocks. The concrete blocks, which are environment friendly, can then be properly buried in the government-approved hazardous waste landfill sites.3... [Pg.1231]

See other pages where Water technology is mentioned: [Pg.237]    [Pg.405]    [Pg.472]    [Pg.351]    [Pg.378]    [Pg.156]    [Pg.371]    [Pg.926]    [Pg.147]    [Pg.858]    [Pg.1161]    [Pg.1185]    [Pg.1186]    [Pg.1394]    [Pg.1394]    [Pg.1396]   


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Alternative Water Removal Technologies

Association of Water Technologies

Coagulation water-technological considerations

Contents 0 TECHNOLOGY (WASTE WATER)

Electrolysis of Water A Green Technology

Lenox Institute of Water Technology

Low water technology

Monsanto high-water technology

Siemens Water Technologies

Soil and Water Decontamination Technologies

Some Water-Technological Considerations in Coagulation and Flotation

Supercritical water technology

Supercritical water technology compounds

Technological Needs for Sustainable Water

Technology water treatment

Use of Solid Catalysts in Promoting Water Treatment and Remediation Technologies

WATER AND WASTEWATER TREATMENT TECHNOLOGIES

Waste water recycling membrane technology

Water Issue and the Role of Solid Catalysis in Promoting New Technologies

Water Solubility Measurement Technology

Water Sterilization Technologies

Water benign process technologies

Water electrolyzers, technology development

Water injection technology

Water jet technology

Water treatment: chemical 1637 recycling technology

Water, acid technological

Water-technological consideration

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