References
- AMPL. 2014. AMPL® A modeling language for mathematical programming. http:www.ampl.com (accessed August 2014).
- Bard, J. F. 1988. Short-term scheduling of thermal-electric generators using Lagrangian relaxation. Operations Research 36(5):756–766.
- Bhardwaj, A., V. K. Kamboj, V. K. Shukla, B. Singh, and P. Khurana 2012. Unit commitment in electrical power system - A literature review. IEEE International Power Engineering and Optimization Conference, Melaka, Malaysia, June 6-7 June.
- Bischi, A., L. Taccari, E. Martelli, G. Manzolini, P. Silva, S. Campanari, E. Amaldi, and E. Macchi. 2014. A detailed MILP optimization model for combined cooling, heat and power system operation planning. Energy. 74(C):12-26.
- Buoro, D., A. De Nardi, P. Pinamonti, and M. Reini. 2012. Optimization of an industrial area energy supply system with distributed cogeneration and solar district heating. ASME Turbo Expo, GT2012-68988, Copenhagen, June.
- Campanari, S., L. Boncompagni, and E. Macchi. 2004. Microturbines and trigeneration: optimization strategies and multiple engine configuration effects. ASME Journal of Engineering for Gas Turbines and Power 126(1):92–101.
- Campanari, S., P. Chiesa, and P. Silva. 2007. Performance assessment of cogeneration systems for industrial district applications. ASME Turbo Expo, GT2007-27659, Montreal, May.
- Campanari, S., and E. Macchi. 2004. Technical and tariff scenarios effect on microturbine trigenerative applications. ASME Journal of Engineering for Gas Turbines and Power 126(3):581–589.
- Campanari, S., G. Manzolini, and P. Silva. 2008. A multi-step optimization approach to distributed cogeneration systems with heat storage. ASME paper GT2008-51227, ASME Turbo Expo, Berlin, June.
- Christober, C., and A. Rajan. 2004. An evolutionary programming based simulated annealing method for unit commitment problem with cooling - Banking constraints. Proceedings of the IEEE INDICON, pp. 453–440.
- European Parliament. 2004. Directive 20048EC of the European Parliament and of the Council of 11 February 2004 on the promotion of cogeneration. Official Journal of the European Union, L52//50.
- Fazlollahi, S., P. Mandel, G. Becker, and F. Maréchal. 2012. Methods for multi-objective investment and operating optimization of complex energy systems. Energy 45(1):12–22.
- Frangioni, A., C. Gentile, and F. Lacalandra. 2009. Tighter approximated MILP formulations for unit commitment problems. IEEE Transactions on Power Systems 24(1):105–113.
- Gas Turbine World. 2012. Handbook. Southport, CT: Pequot Publishing Inc.
- GE Jenbacher. 2012. JMS 320 GS-N.LC. Commercial catalogue, Technical description. http://www.jenbacher.com (accessed August 2014).
- Guan, X., Q. Zhai, and A. Papalexopoulos. 2003. Optimization based methods for unit commitment: Lagrangian relaxation versus general Mixed Integer Programming. IEEE Power Engineering Society General Meeting 2, Toronto, Ontario, Canada, July 13–17.
- IBM ILOG CPLEX Optimizer. 2014. http:////www-01.ibm.com//software//integration//optimization//cplex-optimizer// (accessed August 2014).
- Intergovernmental Panel on Climate Change (IPCC) (2007). Working group 3 report: mitigation of climate change, Fourth Assessment report, Cambridge University press.
- Kerr, T. (2009). Cogeneration and district heating. www.iea.org. (accessed August 2014).
- Li, T., and M. Shahidehpour. 2005. Price-based unit commitment: A case of Lagrangian relaxation versus Mixed Integer Programming. IEEE Transactions on Power Systems 20(4):2015–2025.
- Mitra, S., L. Sun, and I. E. Grossmann. 2013. Optimal scheduling of industrial combined heat and power plants under time-sensitive electricity prices. Energy 54:194–211.
- Ouyang, Z., and S. M. Shahidehpour. 1991. An intelligent dynamic programming for unit commitment application. Transactions on Power Systems 6(3):1203–1209.
- Roncato, J. P., and E. Macchi. 2000. Report of study group 7.2: Comparison of medium or large scale CHP and combined cycles, in various countries. Woc7 Report, Proceedings of World Gas Conference, Nice (Fr), June, pp. 55–82.
- Saravanan, B., S. Das, S. Sikri, and D. P. Kothari. 2013. A solution to the unit commitment problem—A review. Frontiers in Energy 7(2):223–236.
- Senjyu, T., K. Shimabukuro, K. Uezato, and T. Funabashi. 2003. A fast technique for unit commitment problem by extended priority list. IEEE Transactions on Power Systems 18(2):882–888.
- Senthil Kumar, V., and M. R. Mohan. 2010. Solution to security constrained unit commitment problem using genetic algorithm. Electrical Power and Energy Systems 32:117–125.
- Steppan, D. D., J. Werner, and R. P. Yeater. 1998. Essential regression and experimental design for chemists and engineers. http://www.jowerner.homepage.t-online.de//ERPref.html (accessed August 2014).
- Tomaselli, A. 2007. Small scale cogeneration in Italy, Cogeneration and on-site power production. Essex, UK: Penn Well Ed., pp. 99–105.
- Wolsey, L. A. 1998. Integer programming. New York: Wiley.
- Yokoyama, R., S. Takeuchi, and K. Ito. 2005. Thermoeconomic analysis and optimization of a gas turbine cogeneration unit by a systems approach. Paper GT2005-68392. ASME Turbo Expo 2005: Power for Land, Sea, and Air, Volume 4: Turbo Expo 2005, Reno, Nevada, June 6–9.
- Zhou, Z., P. Liu, Z. Li, E. N. Pistikopoulos, and M. C. Georgiadis. 2013. Impacts of equipment off-design characteristics on the optimal design and operation of combined cooling, heating and power systems. Computers & Chemical Engineering 48:40–47.
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