Technology, industrial application

Pamment, N.B., Dasari, G. and Worth, M. A., Mechanisms of ethanol inhibition in yeasts, in Yu, P.-L., (ed.). Fermentation technologies industrial applications, Elsevier Applied Science, London, 1990, 241-246. 

W. Pietsch, Agglomeration Technology - Industrial Applications. Wiley-VCH Verlag, Weinheim, Germany (2003). 

The present edited book is a coUeclion of 28 chapters written upon invitation from the editors by internationally recognized experts Irom academia and industry. Singular chapters contribute to various aspects of basic concepts, methods, technologies, industrial applications, and current challenges of CE. The volume is organized in four parts according to the main subjects Foundations, New developments and methods. Applications and Current challenges. The stracture of the book is illustrated in Fig. 1.1. 

Despite the simplicity of the electrospinning technology, industrial applications of electrospinning are still relatively rare, mainly due to the... 

The Springer Series in Optical Sciences, under the leadership of Editor-in-Chief William T. Rhodes, Georgia Institute of Technology, USA, provides an expanding selection of research monographs in all major areas of optics lasers and quantum optics, ultrafast phenomena, optical spectroscopy techniques, optoelectronics, quantum information, information optics, applied laser technology, industrial applications, and other topics of contemporary interest. 

A concise summary of chemistry of technologically important reactions catalysed by organometallic complexes in solution. Cornils B and Herrmann W A (eds) 1996 Applied Homogeneous Catalysis with Organometallio Compounds (Weinheim VCH) A two-volume, multiauthored account with emphasis on industrial applications. 

The material of this chapter and, for that matter, of the two preceding chapters has wide applicability in the area of technology and manufacture. To do justice to this facet of the subject would require a book in itself, so we must settle for a few paragraphs concerned with industrial applications. 

Z. Amjad, ed.. Reverse Osmosis Membrane Technology, Water Chemistry and Industrial Applications, Van Nostrand Reiohold, New York, 1993. 

From the beginning of this century, the demand for asbestos fibers grew in a spectacular fashion for numerous applications, in particular for thermal insulation in steam engines and technologies (4). Moreover, the development of the Hatschek machine in 1900 for the continuous fabrication of sheets from an asbestos—cement composite opened an important field of industrial application for asbestos fibers. 

It is noteworthy that an important industrial application is based on pure silicone network [9]. This is the organic PSA release technology where an uncured silicone is deposited as a thin coating to a flexible substrate. Strong adhesion develops at the silicone-substrate interface whilst the coating cures. 

The most important aspect of this is that profits can be increased by either an increase in revenues or a decrease in expenses. Water treatment operations are by and large end-of-pipe treatment technologies, and hence from the standpoint industry applications that must treat water, the investments required increase expenditures and decrease profit. Municipal facilities view their roles differently, because their end-product is clean water which is saleable, plus they may have addon revenues when biosolids are developed and sold into local markets. There are different categories of revenues and expenses, and it is important to distinguish between them. 

The synthesis of new polymeric materials having complex properties has recently become of great practical importance to polymer chemistry and technology. The synthesis of new materials can be prepared by either their monomers or modification of used polymers in industry. Today, polystyrene (PS), which is widely used in industrial applications as polyolefins and polyvinylchlorides, is also used for the production of plastic materials, which are used instead of metals in technology. For this reason, it is important to synthesize different PS plastic materials. Among the modification of PS, two methods can be considered, viz. physical and chemical modifications. These methods are extensively used to increase physico-mechanical properties, such as resistance to strike, air, or temperature for the synthesizing of new PS plastic materials. 

The CVD technology of SiC has resulted in many industrial applications summarized below. 

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