论文信息 - An improved modeling for microturbines and fuel cells to the energy management problem of microgrids

An improved modeling for microturbines and fuel cells to the energy management problem of microgrids

This paper presents a mathematical model that presents improvements for the gas microturbines (MT) and fuel cells (FC) in the energy management problem of microgrids. In this problem, the objective is to determine a generation policy that minimizes, over a planning horizon, an objective function subject to economical and technical constraints. We propose a detail modeling for MTs and FCs, where the constraints associated with the ramps, minimum up and downtime, generation limits, etc., take into account some peculiarities that have not been adequately considered in literature. As a highlight, we include in MT modeling the effect of ambient temperature in the operating cost and maximum output generation. To analyze the influence of the proposed modeling, it is used a microgrid with a MT, a FC cell, a battery, wind and photovoltaic generators connected to the grid. The results indicate that the proposed modeling issues have significant influence over the generation policy, especially in relation to the optimal operating cost and the amount of reserve necessary to deal with the uncertainties associated with intermittent generation and load.

[1] Erlon Cristian Finardi,et al. Hydro unit commitment and loading problem for day-ahead operation planning problem , 2013 .

[2] A.J. Conejo,et al. Modeling of start-up and shut-down power trajectories of thermal units , 2004, IEEE Transactions on Power Systems.

[3] F. Jurado,et al. Development of Solid Oxide Fuel Cell Based System in Stand Alone Mode , 2009 .

[4] Vrunda Joshi,et al. Reduction of Harmonics in Microturbine Generation System , 2012 .

[5] Allen J. Wood,et al. Power Generation, Operation, and Control , 1984 .

[6] Chinnan M. Dikwal. Cycling studies of micro-tubular solid oxide fuel cells , 2009 .

[7] Allen. J. Wood and Bruce F. Wollenberg. ‘Power Generation, Operation and Control’, John Wiley & Sons, Inc., 2003. , 2015 .

[8] G. Nemhauser,et al. Integer Programming , 2020 .

[9] Peter R. Armstrong,et al. New Technology Demonstration of Microturbine with Heat Recovery at Fort Drum, New York , 2004 .

[10] Philip G. Hill,et al. Power generation , 1927, Journal of the A.I.E.E..

[11] J. R. McDonald,et al. An integrated SOFC plant dynamic model for power systems simulation , 2000 .

[12] Erlon Cristian Finardi,et al. A computational study of a stochastic optimization model for long term hydrothermal scheduling , 2012 .

[13] Chris Marnay,et al. Integration of distributed energy resources. The CERTS Microgrid Concept , 2002 .