Technologies conventional

Protein engineering is a hybrid discipline wherein recombinant DNA technology, conventional protein chemistry and a host of biochemical, chemical and physical techniques are applied to design, produce and investigate proteins with two purposes. 

Supercritical fluid extraction of emulsions (SFEE) is a combination of the conventional emulsion precipitation process with the SAS processes. This process emerges as a solution for several of the drawbacks of each separated technology. Conventional emulsion precipitation methods involve large quantities of organic solvents and their removal requires additional separation techniques that commonly need high temperatures and high cost. On the other hand, as shown in Table 24.1 by SAS process, often it is not possible to obtain particle sizes within the nanometric scale and the products can present agglomeration problems. 

The use of reinforcing fillers and fibers in polymers to improve their mechanical properties is commonly encountered in polymer technology. Conventional fibers such as carbon fibers, glass fibers. 

In these lectures I have presented a survey of modern Raman spectroscopy, emphasising the applications to gases. Since it is necessary to have some idea of the theory in order to fully appreciate the various applications, I have outlined the semi-classical theory of both conventional and nonlinear Raman processes. Quite a lot of space is devoted to the basis of conventional Raman scattering, not only because it provides an essential foundation for the semi-classical theory of nonlinear processes, but also to emphasise that, using modern electro-optical technology, conventional Raman is still very much the preferred technique for many applications, and that the new nonlinear techniques should only be used when conventional Raman fails or when very high resolution is essential. 

Figure 6.7 shows how the emission of solvent from a typical coating process can be reduced using three different technologies - conventional paint with end-of-pipe abatement, an alternative water-based paint and... 

Cali M., Santarelli M., Leone P., Comparison of the behavior of the CHP-100 SOFC Field Unit fed by natural gas or hydrogen through a computer experimental analysis. World Hydrogen Technology Convention, Singapore, 2005. 

Conventional non-invasive BP technology (conventional oscillometry like Sham/ Cardell, Surgivet BP monitor, Doppler technology, etc.) has clear limitations in different respects ... 

The use of reinforcing fillers and fibers in polymers to improve their mechanical properties is commonly encountered in polymer technology. Conventional fibers such as carbon fibers, glass fibers, gel-spun polyethylene fibers, and aramids are routinely used in composites of a range of different polymers (Chronakis 2005). The improvement in modulus and strength achieved by using even low levels of a reinforcing fiber in a composite is impressive. Some of this improvement is due to the properties at the fiber/matrix interface and therefore dependent on the surface area of the... 

Catalysis based HDS technology -Conventional HDS -HDS with fuel specification recovery -HDS by advanced reactor design -HDS by advanced catalysis... 

J.B. Hansen, N. Christiansen. Solid oxide fuel cell development at Topsoe Fuel Cell A/S, in World Hydrogen Technology Convention 2007, Montecatini, 2007... 

Ways of further improving the thermal stability of EPDM rubbers are discussed. Special emphasis is placed on the effects of polymer structure, crosslinking systems, zinc oxide content, addition of chlorosulphonated PE, antioxidants and coagents on performance characteristics of EPDM at high temps. 2 refs. (Paper presented at 5th Australasian Rubber Technology Convention 1980, PRI Australasian Section). 

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