Lagrangian Relaxation-Based Unit Commitment Considering Fast Response Reserve Constraints

C.  S. Chuang; G.  W. Chang

doi:10.4236/epe.2013.54B186

Search Menu Sign in

Journals by Subject

Journals by Title

EPE Vol.5 No.4 B , July 2013

Lagrangian Relaxation-Based Unit Commitment Considering Fast Response Reserve Constraints

C. S. Chuang^*, G. W. Chang

Abstract: Unit commitment (UC) is to determine the optimal unit status and generation level during each time interval of the scheduled period. The purpose of UC is to minimize the total generation cost while satisfying system demand, reserve requirements, and unit constraints. Among the UC constraints, an adequate provision of reserve is important to ensure the security of power system and the fast-response reserve is essential to bring system frequency back to acceptable level following the loss of an online unit within a few seconds. In this paper, the authors present and solve a UC problem including the frequency-based reserve constraints to determine the optimal FRR requirements and unit MW schedules. The UC problem is solved by using Lagrangian Relaxation-based approach and compared with the actual system schedules. It is observed that favorable reserve and unit MW schedules are obtained by the proposed method while the system security is maintained.

Keywords: Unit Commitment; Fast Response Reserve; Frequency-based Reserve Constraints; Lagrangian Relaxation

Cite this paper: C. S. Chuang and G. W. Chang, "Lagrangian Relaxation-Based Unit Commitment Considering Fast Response Reserve Constraints," Energy and Power Engineering, Vol. 5 No. 4, 2013, pp. 970-974. doi: 10.4236/epe.2013.54B186.

References

[1] C. C. Wu and N. Chen, “Online Methodology to Determine Reasonable Spinning Reserve Requirement for Isolated Power system,” IEE Proc.-Gene. Transm. and Distri., Vol. 150, No. 4, July 2003, pp. 455-461.

[2] C. C. Wu and N. Chen, “Frequency-based Method for Fast-response Reserve Dispatch in Isolated Power System,” IEE Proc.-Gene. Transm. and Distri., Vol. 151, No. 1, Jan. 2004, pp. 73-77.

[3] G. W. Chang, C. S. Chuang and T. K. Lu, “A Simplified Combined-cycle Unit Model for Mixed Integer Linear Programming-based Unit Committment,” Proceedings of the 2008 IEEE PES General Meeting, Pittsburgh, PA, USA, July 2008.

[4] G. W. Chang, M. Aganagic, J. G. Waight, J. Medina, T. Burton, S. Reeves and M. Christoforidis, “Experiences with Mixed Integer Linear Programming Based Approaches on Short-term Hydro Scheduling,” IEEE Transactions on Power Systems, Vol. 16, No. 4, 2001, pp. 743-749.doi:10.1109/59.962421

[5] X. Guan, P. B. Luh, H. Yan and P. Rogan, “Optimization-based Scheduling of Hydrothermal Power Systems with Pumped-storage Units,” IEEE Transactions on Power Systems, Vol. 9, No. 2, 1994, pp. 1023-1031.doi:10.1109/59.317641