Page 352 - Sustainability in the Process Industry Integration and Optimization

P. 352

Bibl iog r aph y 329

Heckl, I., Friedler, F., Fan, L. T., 2009a. Reduced super-structure for a separation
network comprising separators effected by different methods of separation.
Computers & Chemical Engineering, 33(3), 687–698.
Heckl, I., Friedler, F., Fan, L. T., 2009b. Solution of separation network synthesis
problems by the P-graph methodology. Computer Aided Chemical Engineering,
26, S641–S646.
Heckl, I., Kovács, Z., Friedler, F., Fan, L. T., Liu, J., 2007. Algorithmic synthesis of
an optimal separation network comprising separators of different classes.
Chemical Engineering and Processing, 46, 656–665.
Hegyháti, M., Adonyi, R., Holczinger, T., Friedler, F., 2006. Demonstration program
for S-graph based batch-process scheduling. CHISA 2006 (27–31 August).
Prague: Czech Society of Chemical Engineering.
Hegyháti, M., Majozi, T., Holczinger, T., Friedler, F., 2009. Practical infeasibility
of cross-transfer in batch plants with complex recipes: S-graph vs. MILP
methods. Chemical Engineering Science, 64(3), 605–610.
Hernández, S., Jiménez, A., 1999. Design of energy-efficient Petlyuk systems.
Computers & Chemical Engineering, 23(8), 1005–1010.
Herrera, A., Islas, J., Arriola, A., 2003. Pinch technology application in a hospital.
Applied Thermal Engineering, 23, 127–139.
Heyen, G., Kalitventzeff, B., 2007. Process monitoring and data reconciliation.
In L. Puigjaner and G. Heyen (Eds.), Computer Aided Process and Product
Engineering, vol. 2, pp. 517–540. New York: Wiley.
Himmelblau, D. M., 1988. Applied nonlinear programming. New York: McGraw-
Hill.
Hoekstra, A. Y., 2008. The value of water. Research Report Series, 28, UNESCO-IHE,
Delft, The Netherlands.
Hoekstra, A. Y., Chapagain, A. K., 2007. Water footprints of nations. Water Resources
Management, 21(1), 35–48.
Hohmann, E. C., 1971. Optimum networks for heat exchange. PhD thesis,
University of Southern California, Los Angeles.
Holczinger, T., Biros, G., Friedler, F., Sarkozi, N., 2004. Acceleration tools for
batch process scheduling. CHISA 2004 (Prague, 22–26 August), Czech Society
of Chemical Engineering.
Holczinger, T., Majozi, T., Hegyhati, M., Friedler, F., 2007. An automated algorithm
for throughput maximization under fixed time horizon in multipurpose
batch plants: S-graph approach. Computer Aided Chemical Engineering, 24,
649–654.
Holczinger, T., Romero, J., Puigjaner, L., Friedler, F., 2002. Scheduling of
multipurpose batch processes with multiple batches of the products. Hungarian
Journal of Industrial Chemistry, 30, 305–312.
HOMER, 2009. HOMER Energy LLC. <www.homerenergy.com/> (accessed 2
September 2009).
Honeywell, 2010. UniSim Design. <hpsweb.honeywell.com/Cultures/en-US/
Products/ControlApplications/simulation/UniSimDesign/default.htm>
(accessed 18 January 2010).
Hosford, J. E., 1960. Measures of dependability. Operations Research, 8(1), 53–64.
Houdková, L., Boráň, J., Ucekaj, V., Elsäßer, T., Stehlík, P., 2008. Thermal processing
of sewage sludge—II. Applied Thermal Engineering, 28(16), 2083–2088.
Huang, C.-H., Chang, C.-T., Ling, H.-C., Chang, C.-C., 1999. A mathematical
programming model for water usage and treatment network design. Industrial
& Engineering Chemistry Research, 38(7), 2666–2679.
Hul, S., Tan, R. R., Auresenia, J., Fuchino, T., Foo, D. C. Y., 2007. Water network
synthesis using mutation-enhanced particle swarm optimization. Process
Safety and Environmental Protection, 85(6), 507–514.
HYSYS, 2010. Aspen HYSYS. <www.aspentech.com/hysys> (accessed 18 January
2010).
IAEA [International Atomic Energy Agency], 2009. Planning and Economic Studies
Section (PESS). <www.iaea.org/OurWork/ST/NE/Pess/PESSenergymodels.
shtml> (accessed 13 June 2009).

347 348 349 350 351 352 353 354 355 356 357