Gas separation technologies

Status of Membrane Gas Separation Technology," Nitrogen 173, 25—29 (May—June 1988). 

E.F. Vansant and R. Dewolfs (Eds.), Gas Separation Technology (Proc. Int. Symp. Gas Separation Technology, Antwerp, September 10-15, 1989), Elsevier, Amsterdam, 1990. 

The development of high-flux anisotropic membranes and large-surface-area membrane modules for reverse osmosis applications in the late 1960s and early 1970s provided the basis for modem membrane gas separation technology. The first company to establish a commercial presence was Monsanto, which... 

R. Prasad, R.L. Shaner and K.J. Doshi, Comparison of Membranes with Other Gas Separation Technologies, in Polymeric Gas Separation Membranes, D.R. Paul and Y.P. Yampol skii (eds), CRC Press, Boca Raton, FL, pp. 531-614 (1994). 

Baker, R.W. (2002) Future Directions of Membrane Gas Separation Technology. Industrial el Engineering Chemistry Research, 41 (6), 1393-1411. 

Bessarabov, D. (1999). Membrane gas-separation technology in the petrochemical industry, Membrane Technol. 107, 9. 

MUller U etal (1990) In Gas Separation Technology, Elsevier, Amsterdam, p 255 Otowa T (1991) In Adsorptive Separation (M Suzuki, ed), Institute of Industrial Science, Tokyo, p 273... 

As for a comparison of membrane gas separation technologies, such as pressure swing absorption (PSA) and low-temperature or cryogenic separations, the last chapter in (Paul and Yam-pol skii, 1994) must remain somewhat inconclusive, given the... 

Kondo T. New Developments in Gas Separation Technology. Shiga, Japan Toray Research Center, Inc., Asahi Kousoku Insatsu K.K. 1992. 

Baker RW. Future directions of membrane gas separation technology. Ind. Eng. Chem. Res. 2002 41 1393-1411. 

Prasad R, Shaner L, and Doshi KJ. Comparison of membranes with other gas separation technologies. In Paul DR and YampoTskii YP, eds. Polymeric Gas Separation Membranes. Boca Raton, FL CRC Press, 1994. 

Fain DE. Mixed gas separation technology using inorganic membranes. Membr. Technol. 2000 120 9-13. 

In a similar vein, Sakai, Takenaka and Torikai produced Nafion/metal microcomposites by reducing palladium, rhodium, platinum and silver ion-exchanged membranes with H, at high temperatures (100-300°C) (26). The affected metal clusters, distributed homogeneously, were about 50 A in size. As in Risen s work, a polymer matrix template effect appears to be operative. These systems were considered and evaluated within the context of gas separations technology. 

Krishnamurthy, R. and Andrecovich, M. J., Application of a Nonequilibrium Stage Model to Cryogenic Process Simulation, Proceedings of the International Symposium on Gas Separation Technology, held in Antwerp, Belgium, Vansant, E. F. and Dewolfs, R. (Eds.), Elsevier, Amsterdam, The Netherlands, 1989. 

Koros, W. J. "Gas Separation Technology", International Membrane Technology Conference, Sydney, Australia, November 1983. 

It was estimated that this process route was approximately twice as costly as converting natural gas to liquid fuels via synthesis-gas-based routes such as Fischer-Tropsch. However, some novel developments in gas separation technology and high temperature heat recovery could bring the process back into contention. 

Applications of membrane-based gas separation technology tend to fall into three major categories ... 

Advanced Gas Separation Technology Gas and Equipment Group Air Products and Chemicals, Inc. 7201 Hamilton Blvd. 

Carbon molecular sieve membranes are used in gas separation technology, for example, to recover CO2 and H2O from natural gas, and other purification steps. A variety of polymeric precursors for carbon molecular sieve membranes are available, such as poly(imide), poly(acrylonitrile) phenolic resins, and poly(fiuduryl alcohol). PPE can be modified in various ways, which procedure is advantageous for tailoring the selectivity. ... 

FIGURE 5.2 Scheme of a hybrid membrane/cryogenic distillation plant for removal of nitrogen from natural gas. (Reprinted with permission from Baker, R.W., Future directions of membrane gas separation technology, Ind. Eng. Chem. Res.. 41, 1393. Copyright [2002] American Chemical Society.)... 

---