Article Information  
Short Term Economic Emission Power Scheduling of Hydrothermal Energy Systems Using Improved Water Cycle Algorithm

Keywords: Economic Emission Scheduling, Multi-objective Optimization, Water Cycle Algorithm, Evaporation Rate, Fuel Emissions, Exhaust Gas Emissions

Mehran University Research Journal of Engineering & Technology

Volume 36 ,  Issue 2

SHAIKH  SAAQIB  HAROON , TAHIR NADEEM MALIK   ,

References
1. Ahmad, A., and Asar, A. "A PSO Based Artificial Neural Network Approach for Short Term Unit Commitment Problem", Mehran University Research Journal of Engineering & Technology, Volume 29, pp. 607-20, Jamshoro, Pakistan, 2010.
2. Malik, T., and Asar, A., "Neuro-Genetic Hybrid Approach for the Solution of Non-Convex Economic Dispatch Problem", Mehran University Research Journal of Engineering & Technology, Volume 28, pp. 289-302, Jamshoro, Pakistan, 2009.
3. Malik, T.N., Zafar, S., and Haroon, S., "An Improved Chaotic Hybrid Differential Evolution for the Short- Term Hydrothermal Scheduling Problem Considering Practical Constraints", Frontiers of Information Technology & Electronic Engineering, Volume 16, pp. 404-17, 2015.
4. Talaq, J.H., El-Hawary, F., and El-Hawary, M.E., "A Summary of Environmental/Economic Dispatch Algorithms", IEEE Transactions on Power Systems, Volume 9, pp. 1508-16, 1994.
5. Huang, C.-M., Yang, H.-T., and Huang, C.-L. "Bi- Objective Power Dispatch using Fuzzy Satisfaction- Maximizing Decision Approach", IEEE Transactions on Power Systems, Volume 12, pp. 1715-21, 1997.
6. Kulkarni, S.A., and Kothari, D.P., "Combined Economic and Emission Dispatch using Improved Backpropagation Neural Network", Electric Machines &Power Systems, Volume 28, pp. 31-44, 2000.
7. Muralidharan, S., Srikrishna, K., and Subramanian, S. "Emission Constrained Economic Dispatch—A New Recursive Approach", Electric Power Components and Systems, Volume 34, pp. 343-53, 2006.
8. Abido, M., "Environmental/Economic Power Dispatch using Multiobjective Evolutionary Algorithms", IEEE Transactions on Power Systems, Volume 18, pp. 1529-37, 2003.
9. Chiang, C.-L. "Optimal Economic Emission Dispatch of Hydrothermal Power Systems", International Journal of Electrical Power & Energy Systems, Volume 29, pp. 462-69, 2007.
10. Chiang, C.L., Liaw, J.H., and Su, C.T., "New Approach with a Genetic Algorithm Framework to Multi Objective Generation Dispatch Problems", European Transactions on Electrical Power, Volume 15, pp. 381-95, 2005.
11. Wang, L., and Singh, C., "Reserve-Constrained Multiarea Environmental/Economic Dispatch Based on Particle Swarm Optimization with Local Search", Engineering Applications of Artificial Intelligence, Volume 22, pp. 298-307, 2009.
12. Lu, S., Sun, C., and Lu, Z., "An Improved Quantum- Behaved Particle Swarm Optimization Method for Short- Term Combined Economic Emission Hydrothermal Scheduling", Energy Conversion and Management, Volume 51, pp. 561-71, 2010
13. Mandal, K., and Chakraborty, N., "Short-Term Combined Economic Emission Scheduling of Hydrothermal Power Systems with Cascaded Reservoirs using Differential Evolution", Energy Conversion and Management, Volume 50, pp. 97-104, 2009.
14. Glotiæ, A., and Zamuda, A., "Short-Term Combined Economic and Emission Hydrothermal Optimization by Surrogate Differential Evolution", Applied Energy, Volume 141, pp. 42-56, 2015.
15. Li, C., Zhou, J., Lu, P., and Wang, C., "Short-Term Economic Environmental Hydrothermal Scheduling using Improved Multi-Objective Gravitational Search Algorithm", Energy Conversion and Management, Volume 89, pp. 127-36, 2015.
16. Tian, H., Yuan, X., Ji, B., and Chen, Z., "Multi-Objective Optimization of Short-Term Hydrothermal Scheduling using Non-Dominated Sorting Gravitational Search Algorithm with Chaotic Mutation", Energy Conversion and Management, Volume 81, pp. 504-19, 2014
17. Sadollah, A., Eskandar, H., Bahreininejad, A., and Kim, J.H., "Water Cycle Algorithm with Evaporation Rate for Solving Constrained and Unconstrained Optimization Problems", Applied Soft Computing, Volume 30, pp. 58-71, 2015
18. Basu, M., "An Interactive Fuzzy Satisfying Method Based on Evolutionary Programming Technique for Multiobjective Short-Term Hydrothermal Scheduling", Electric Power Systems Research, Volume 69, pp. 277-85, 2004.
19. Mandal, K., and Chakraborty, N., "Short-Term Combined Economic Emission Scheduling of Hydrothermal Systems with Cascaded Reservoirs using Particle Swarm Optimization Technique", Applied Soft Computing, Volume 11, pp. 1295-302, 2011
20. Sun, C., and Lu, S., "Short-Term Combined Economic Emission Hydrothermal Scheduling using Improved Quantum-Behaved Particle Swarm Optimization", Expert Systems with Applications, Volume 37, pp. 4232-41, 2010.
21. Lu, S., and Sun, C., "Quadratic Approximation Based Differential Evolution with Valuable Trade Off Approach for Bi-Objective Short-Term Hydrothermal Scheduling", Expert Systems with Applications, Volume 38, pp. 13950-60, 2011
22. Mandal, K.K., and Chakraborty, N., "Daily Combined Economic Emission Scheduling of Hydrothermal Systems with Cascaded Reservoirs using Self Organizing Hierarchical Particle Swarm Optimization Technique", Expert Systems with Applications, Volume 39, pp. 3438-45, 2012
   


© 1982-2017 Mehran University Research Journal Of Engineering & Technology, Jamshoro, 76062, Sindh, Pakistan. All Rights Reserved.