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Received July 13, 2004
Accepted October 15, 2004
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New Concepts in Material and Energy Utilization
Piyasan Praserthdam†
Choowong Chaisuk1
Wilasinee Kongsuebchart
Supakanok Thongyai
Sirachaya Kunjara Na Ayudhya
Center of Excellence on Catalysis and Catalytic Reaction Engineering,Department of Chemical Engineering, Chulalongkorn University, Bangkok 10330, Thailand 1Department of Chemical Engineering, Silpakorn University,Sanam Chandra Palace Campus, Nakorn Pathom 73000, Thailand
Korean Journal of Chemical Engineering, January 2005, 22(1), 115-120(6), 10.1007/BF02701472
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Abstract
New criteria in material and energy utilization are proposed. The potential index (Θ*) is assigned to explain some natural processes in the world and to identify reasonably the preferable process instead of the efficiency. In addition, this term can first integrate the independent knowledge of the fields of mechanical, electrical and chemical engineering. It not only describes satisfactorily the transformation processes that are well-known in mechanical and electrical engineering, but also the increasing potential processes familiar in chemical engineering.
Keywords
References
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Atkins P, The Elements of Physical Chemistry, 3rd, Oxford press (2001)
Bird RB, Warren ES, Edwin NL, Transport Phenomena, John Wiley & Sons, INC (1960)
Cary JK, Separation Processes, 2rd edition, New Delhi: Tata McGraw-Hill (1982)
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Christie JG, Transport Processes and Unit Operations, 5th edition, Prentice-Hall International, Inc. (1993)
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EG & G. Services, Fuel Cell Handbook, 5th edition, Parsons, Inc. Science Applications International Corporation (2002)
Green MA, "Progress in Photovoltaics, Research and Applications", 6(1) (1998)
Han MW, Choi DK, Lee WK, Korean J. Chem. Eng., 2(1), 25 (1985)
Herman JA, et al., Separation Methods in Analytical Chemistry, New York: Interscience Pub. (1961)
Heywood JB, Internal Combustion Engine Fundamental, McGraw-Hill Book Company (1988)
Jang JG, Kim MR, Lee KH, Lee JK, Korean J. Chem. Eng., 19(6), 1059 (2002)
Jui SH, Engineering Thermodynamics, Prentice-Hall, Inc. (1993)
JUNG Y, PARK D, Korean J. Chem. Eng., 5(2), 109 (1988)
Kage H, Dohzaki M, Ogura H, Matsuno Y, Korean J. Chem. Eng., 16(5), 630 (1999)
Kang MS, Kim IW, Park S, Korean J. Chem. Eng., 13(2), 159 (1996)
Kang MS, Tanioka A, Moon SH, Korean J. Chem. Eng., 19(1), 99 (2002)
Noel DN, Physical and Chemical Equilibrium for Chemical Engineers, John Wiley & Sons, Inc. (2002)
Octave L, Chemical Reaction Engineering, 2rd edition, John Wiley & Sons, Inc. (1972)
Oh EK, Jung GH, Kim SG, Lee HK, Kim IW, Korean J. Chem. Eng., 16(3), 292 (1999)
PARK CY, LEE YC, CHUNG SH, SOHN ES, Korean J. Chem. Eng., 7(4), 296 (1990)
Piyasan P, Principles of Design Instrument for Separation, 3th edition, cubook, Bangkok (1999)
Seader JD, Ernest JH, Separation Process Principles, New York: Wiley (1998)
Sen PC, Principles of Electric Machines and Power Electronics, John Wiley & Sons, Inc. (1989)
Shuzo O, "Distillation Engineering", Translated by Technology Promotion association (Thailand Japan), Bangkok (1993)
Smith JM, Van ness, Abbott, M. M., Introduction to Chemical Engineering Thermodynamic, 6th edition, McGraw-Hill (2001)
Van Wylen GJ, Thermadynamics, John Wiley & Sons, Inc. (1959)
Vielstich W, Lamm A, Gasteiger HA, Handbook of Fuel Cells Fundamentals Technology and Applications, Volume 5, John Wiley & Sons Inc., USA (2003)
Warren LM, Julian CS, Peter H, Unit Operations of Chemical Engineering, 5th edition, McGraw-Hill, Inc. (1993)
Williams KR, An Introduction to Fuel Cells, Elsevier publishing Company (1966)
YOO KP, LEE KS, LEE WH, PARK HS, Korean J. Chem. Eng., 5(2), 123 (1988)
Yun Y, Yoo YD, Korean J. Chem. Eng., 18(5), 679 (2001)
