Technologies in industry

Electrochemical Technology in Industry - A UK Status Report, SJD Tait (ed), SCI Electrochemical Group, London, 1991 cited in Ref [133]... 

Adsorptive separation is a powerful technology in industrial separations. In many cases, adsorption is the only technology available to separate products from industrial process streams when other conventional separation tools fail, such as distillation, absorption, membrane, crystallization and extraction. Itis also demonstrated that zeolites are unique as an adsorbent in adsorptive separation processes. This is because zeolites are crystalline soUds that are composed of many framework structures. Zeolites also have uniform pore openings, ion exchange abiUty and a variety of chemical compositions and crystal particle sizes. With the features mentioned, the degree of zeoUte adsorption is almost infinite. It is also noted that because of the unique characteristics of zeoHtes, such as various pore openings, chemical compositions and structures, many adsorption mechanisms are in existence and are practiced commercially. 

D d DC DEMiS Diffusion coefficient Internal diameter Direct current Demonstration and Evaluation of Microreaction Technology in Industrial Systems... 

The two previous conferences were held in 1984 and 1990 in Erlangen, Germany, at a University with considerable impact on the promotion of this emerging technology in industry. Following the Erlangen tradition the Zurich symposium is also subdivided in three major sections, namely... 

Peinemann KV. Membrane technology in industrial processes. In Proceedings The FoniM Seminar, Oslo, Norway, 1997. Peinemann KV, Ohhogge K, and Knauth HD. The recovery of hehum from diving gas with membranes. In Membranes with gas separation and environment. Special Pubhcation No. 62. London Royal Society of Chemistry, 1986, pp. 329-341. 

Emulsion swelling is one of the major drawbacks in the use of this technology in industrial simations. For example, the economic advantages of ELM, over conventional solvent extraction for copper processing are lost with a swelling ratio in excess of 30-40 [102]. In terms of processing, an emulsion swelling of about 10% is considered acceptable [45]. 

Development of innovative materials with improved properties is a key issue for the application of membrane technology in industrial processes. Significant progresses have been made in the study and reafization of new organic and inorganic membranes with controlled structure. 

Indian Chemical Manufacturers Association (Bombay) Award for the Most Outstanding Example of Forward Development of Technology in Industrial Chemistry in India... 

SLM technology, as already mentioned, has apphcation in many separation processes where selective recovery is one of the main requirements. Several interesting examples of SLM use for separation of various chemical species will be presented to show its flexibility and adaptability for very different purposes (Table 3.7). Additionally, the examples show the potential for the use of SLM technology in industrial processes. 

Singh, A. and Singh, H., in Isotopes and Radiation Technology in Industry, Rao, S. M., and KuUtarni, K. M., Eds., National Association for Applications of Radioisotopes and Radiation in Industry, BARC, Bombay (1994). 

The introduction of Internet technology in industrial engineering starts with a preliminary definition of the company s business requirements and objectives. From these, the potential network apphcations can be derived. The planning and implementation phases can be started. 

BO Rillo, RP Magat, MMS Miguel, ML Diloy, In ML Maneepun, PVarangoon, B Phithakpol, Eds., Food Science and Technology in Industrial Development. Bangkok, Thailand Institute of Food Research and Product Development, 1988, pp. 690-694. 

Peinemann KV. Membrane technology in industrial processes. Proceedings The Forum Seminar, Oslo, Norway, 1997. 

Hills, A.E. (2001). Practical guidebook for radioisotope-based technology in industry, Technical Report, lAEA/RGA/8/078, Vienna, Austria... 

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