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Computer applications Engineering

Mechanical Engineering Dept, ChingYun University, Taiwan, ROC Department of Computer Application Engineering, Far-East University, Taiwan, ROC. [Pg.901]

T. Umeda, T. Harada, and K. Shiroko, "A Thermodynamic Approach to the Synthesis of Heat Integration Systems in Chemical Processes," Proceedings of the 12th Symposium on Computer Applications in Chemical Engineering, Montreaux, Swit2edand, 1979, p. 487. [Pg.529]

L. T. Manzione, Applications of Computer Aided Engineering in Injection Molding, Hanser Pubhshers, Munich, Germany, 1987. [Pg.146]

R. K. Liadsay and co-woikets. Applications ofiArtificial Intelligence to Chemisty The DENDRAE Pnfect, McGraw-HiU Book Go., Inc., New York, 1980. D. L. Ghester, D. E. Lamb, and P. Dhurjati, ASME-Computers in Engineering 1, 345—351 (1984). [Pg.540]

Gould, T. L., el. al., Engineering Methods and Computer Applications For Design and Operation, of Two-Phase Pipeline Systems, The University of Michigan, Amn Arbor, Mich., 1973. [Pg.157]

Sargent, R.W.H. "A Review of Optimization Methods for Nonlinear Problems", in Computer Applications in Chemical Engineering, R.G. Squires and G.V. Reklaitis, Eds., ACS Symposium Series 124, 37-52, 1980. [Pg.400]

KA Brandt, HP Lehmann. Teaching literature searching in the context of the World Wide Web. In Proceedings/Nineteenth Annual Symposium on Computer Applications in Medical Care. New York, NY Institute of Electrical and Electronics Engineers, 1995, pp. 888-892. [Pg.791]

Wallace TF (ed) (1992) APICS Dictionary, 7th edn. American Production and Inventory Control Society, Falls Church VA Wang R, Liang T (2004) Application of fuzzy multi-objective linear programming to aggregate production planning. Computers Industrial Engineering 46 17-41... [Pg.278]

L. Constantine, K. Bagherpour, R. Gani, J.A. Klein D.T. Wu, 1996, Computer Aided product design Problem formulations, methodology and applications, Computers Chemical Engineering, 20 (6/7), 685-702. [Pg.472]

Zemaitis, J.F., "Counter Current Stage Separation with Chemical and Ionic Equilibrium and/or Reaction", to be published in Computer Applications to Checmical Engineering Process Design and Simulation, ACS Symposium Series,... [Pg.246]

Sivasubramanian, M. S. and Boston, J. F., 1990, The heat and mass transfer rate-based approach for modelling multicomponent separation processes, in Computer Applications in Chemical Engineering, pp. 331-336. Elsevier, Amsterdam. [Pg.14]

Wu, C., Intelligent computer aided design on optimization of specific power of finite-time Rankine cycle using CyclePad. Journal of Computer Application in Engineering Education, 6(1), 9-13, 1998. [Pg.423]

The computer system URS needs to describe the levels of functionality and operability required from the computer system, its application, and the location with regard to the process. Definition of approved and accurate manufacturing and process data is a key objective of the URS and is essential in order for the computer system supplier or integrator to fully understand and develop the computer application and to engineer the field instrumentation and electrical controls. This must include the quality-related critical parameters that are fundamental in determining and ensuring the satisfactory quality of a drug product. Parameters, data, and functions that are necessary to uphold GMP must always be considered as firm requirements and candidates for validation. [Pg.584]

Depending on the contractual approach, the responsibility for the provision, design, and testing of the computer system may be separate from that for the application engineering, provision, design, and testing of measurement and control instrumentation (and associated field equipment e.g., cabinets and cabling). [Pg.591]

Figure 6.1 summarizes the key areas of computer applications in catalysis research. Note that this chapter does not cover reactor and process simulations, although of course these are performed using computers, and are essential for designing industrial catalytic processes. Textbooks on chemical engineering discuss these subjects in depth [2]. [Pg.233]

Masao Doyama, Junji Kihara, and Minoru Tanaka, Computer Aided Innovation of New Materials, II, in Proceedings of the Second International Conference and Exhibition on Computer Applications to Materials and Molecular Science and Engineering (CAMSE 92), Yokohoma, Japan, 22-25 September 1992, Part 2, North-Holland, Amsterdam, The Netherlands, 1993. [Pg.269]

In Computer Applications to Chemical Engineering Squires, R., el al. ACS Symposium Series American Chemical Society Washington, DC, 1980. [Pg.1]

Computer applications to chemical engineering process design and simulation. [Pg.4]


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See also in sourсe #XX -- [ Pg.97 , Pg.101 ]




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