论文信息 - Fastened Unit Commitment with Loss Linearization for Distributed Generation Planning Studies

Fastened Unit Commitment with Loss Linearization for Distributed Generation Planning Studies

This paper presents an energy management strategy whose objective is the reduction of CO2 emissions of the power system on Jurong Island in Singapore. Distributed Generation (DG), with solar generation, energy storage, small gas turbine as well as controllable loads, is investigated. Such a procedure aims at being integrated in an optimal planning problem to find the best DG configuration and should then correspond to reasonable computational time. Thus a Mixed integer linear programming (MILP) technique is considered for the system simulated over a representative day. A specific attention is attached to the branch losses estimation with a modified DC power flow (DCPF). At first the method is tested for the base case scenario before investigating different configurations for the DG assets. Results are analyzed in terms of carbon emissions and grid losses.

Keck Voon Ling | Rémy Rigo-Mariani | Jan Maciejowski

[1] Meherwan P. Boyce,et al. Handbook for Cogeneration and Combined Cycle Power Plants , 2010 .

[2] Ahmad Rezaee Jordehi,et al. Allocation of distributed generation units in electric power systems: A review , 2016 .

[3] Fazel Abbasi,et al. Optimal DG allocation and sizing in presence of storage systems considering network configuration effects in distribution systems , 2016 .

[4] Daniel S. Kirschen,et al. Near-Optimal Method for Siting and Sizing of Distributed Storage in a Transmission Network , 2015, IEEE Transactions on Power Systems.

[5] Rene Prenc,et al. Distributed generation allocation based on average daily load and power production curves , 2013 .

[6] Dheeraj Kumar Khatod,et al. Optimal sizing and siting techniques for distributed generation in distribution systems: A review , 2016 .

[7] Hoay Beng Gooi,et al. Jump and Shift Method for Multi-Objective Optimization , 2011, IEEE Transactions on Industrial Electronics.

[8] M. Carrion,et al. A computationally efficient mixed-integer linear formulation for the thermal unit commitment problem , 2006, IEEE Transactions on Power Systems.

[9] Keck Voon Ling,et al. A generic method to model carbon emission of combined cycle for environmental power dispatch , 2017, 2017 Asian Conference on Energy, Power and Transportation Electrification (ACEPT).

[10] Rajesh Kumar Nema,et al. Planning of grid integrated distributed generators: A review of technology, objectives and techniques , 2014 .