Production systems industrial

Monden, Y. (1983), Toyota Production System, Industrial Engineering and Management Press, Nor-cross, GA. 

Tsutsumi, A., Nieh, J.Y. and Fan, L.S., 1991. Role of the bubble wake in fine particle production of calcium carbonate in bubble column systems. Industrial and Engineering Chemistry Research, 30, 2328-2333. 

Brazilian cement plants are relatively modem due to the country s more recent industrialization in comparison with many other countries. For example, the average energy consumption per tons of cement produced in Brazil is 112 kWh/t, while in the United States this is around 140 kWh/t. The efforts of companies in the sector have achieved significant progress in terms of more efficient production systems with lower energy consumption. At the same time, the use of additives mixed with clinker, such as blast furnace slag, also has helped reduce C02 emissions per tonne of cement, because this pollutant is formed during the production of clinker. 

Although fully devoted to the Health Sector, Biacore offers a set of services, which might be of great interest to developmental activities in other industrial areas. Then-focus is on systems for protein interaction analysis, which yield data on the interactions between proteins and other molecules. Protein functionality and the elucidation of reaction mechanisms play an important key role in the development and production of industrial processes. Currently, their products are used in antibody characterization,... 

Conventional livestock production systems can be very diverse and this diversity is influenced by economic, geographic, environmental and cultural factors. Conventional inputs for direct use in ruminant production include many types of plant feeds (i.e. forages, cereals, soybeans, etc.), industrial by-products (i.e. molasses, distiller s dried grain, meat bone meal, etc.), feed... 

The oxidation of cobalt metal to inactive cobalt oxide by product water has long been postulated to be a major cause of deactivation of supported cobalt FTS catalysts.6 10 Recent work has shown that the oxidation of cobalt metal to the inactive cobalt oxide phase can be prevented by the correct tailoring of the ratio Ph2cJPh2 and the cobalt crystallite size.11 Using a combination of model systems, industrial catalyst, and thermodynamic calculations, it was concluded that Co crystallites > 6 nm will not undergo any oxidation during realistic FTS, i.e., Pi[,()/I)i,2 = 1-1.5.11-14 Deactivation may also result from the formation of inactive cobalt support compounds (e.g., aluminate). Cobalt aluminate formation, which likely proceeds via the reaction of CoO with the support, is thermodynamically favorable but kinetically restricted under typical FTS conditions.6... 

As gelatin is a common food additive with applications in the pharmaceutical industry, its introduction into foreign protein production systems may generate fewer regulatory concerns than other biopolymers. 

Although proteins can be expressed in many heterologous production systems, including bacteria such as Proteus mirabilis [1], fungi such as Pichia pastoris [2, 3] and Aspergillus awamori [4] and insect cells [5, 6], the pharmaceutical industry has narrowed down process development to a small number of platform technologies ... 

The pharmaceutical industry anticipates that molecular farming will save time and money compared to traditional production systems. Because of bottlenecks and production costs, many biologies will never reach the market and the intended patients, or will do so only with great delays, if molecular farming fails. However, a number of points in the production of plant-derived proteins have yet to be addressed appropriately. In order to fulfill all requirements and obtain regulatory approval, the questions outlined above have to be answered for each recombinant protein. Last but not least, economical factors will decide whether molecular farming in plants will increase the number of available products. 

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