Mathematical model of Compressed Air Energy Storage in smoothing 2MW wind turbine

Author

Hasan, N.S. ; Hassan, M.Y. ; Majid, M.S. ; Rahman, H.A.

Author_Institution

Centre of Electr. Energy Syst. (CEES), Univ. Teknol. Malaysia, Johor Bahru, Malaysia

fYear

2012

fDate

6-7 June 2012

Firstpage

339

Lastpage

343

Abstract

This paper presents the mathematical modeling of Compressed Air Energy Storage, (CAES) in obtaining mechanical power generated from expander. Mechanical power is injected to a generator to generate electricity that will stabilize 2MW active power fluctuated caused by intermittent behavior of wind speed. The control system in maintaining dc-link voltage at constant value and control system in supplying generated power from CAES is also discussed here. The goals in using CAES are to smooth out the fluctuated power and increased low power integrated into the grid. This system is analyzed using SimPowerSystem of MATLAB/simulink. Results show that the jCAES is able to not only mitigate generated power but it also can promise constant power generated to grid even at low wind speed.

Keywords

compressed air energy storage; permanent magnet generators; power control; power generation control; power grids; synchronous generators; voltage control; wind power plants; CAES; Matlab-Simulink; SimPowerSystem; active power; compressed air energy storage; control system; dc-link voltage; expander; fluctuated power smoothing; mathematical model; mechanical power; permanent magnet synchronous generator; power 2 MW; power grid; smoothing wind turbine; wind speed; Atmospheric modeling; Educational institutions; Energy storage; Generators; Heating; Mathematical model; Wind turbines; Compressed Air Energy Storage; Permanent magnet Synchronous Generator; Synchronous Generator; Variable Speed;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Engineering and Optimization Conference (PEDCO) Melaka, Malaysia, 2012 Ieee International

Conference_Location

Melaka

Print_ISBN

978-1-4673-0660-7

Type

conf

DOI

10.1109/PEOCO.2012.6230886

Filename

6230886