联合循环发电厂性能的负荷优化Block 4 PT Indonesia power Priok POMU

Journal of Mechatronics Electrical Power and Vehicular Technology Pub Date : 2022-07-29 DOI:10.14203/j.mev.2022.v13.24-35

Louise Indah Utami, Ika Yuliyani, Yanti Suprianti, P. Iriani

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引用次数: 0

摘要

联合循环发电厂（CCPP）是一种闭式循环发电厂，来自燃气轮机（GT）废气的热量将流入热回收蒸汽发生器（HRSG），供蒸汽轮机（ST）使用。CCPP区块4（爪哇-2）PT Indonesia Power Priok POMU的装机容量为880 MW，由2台GT机组（每台301.5 MW）和1台ST机组（307.5 MW）组成。发电厂的性能取决于其负载，因为涡轮发电机在低负载下运行时效率较低。截至2019年7月的数据显示，2.2.1（2 GT，2 HRSG，1 ST）配置已在CC净负荷约为30-45%的三种情况下使用，事实上可以通过1.1.1（1 GT，1 HRSG，一ST）配置进行补偿。这导致CC净效率下降了21.34%。可以进行的优化是通过模拟将负荷配置从2.2.1更改为1.1.1，负荷为CC净负荷的0-50%，包括燃气轮机和HRSG启动过程的影响。这种优化的结果是，由于每个涡轮发电机的性能更高，CCPP性能提高。因此，2019年7月的优化结果提供了1146.09 MMBTU的节能，或相当于152249551.76印尼盾的成本节约。

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Load optimization on the performance of combined cycle power plant Block 4 PT Indonesia Power Priok POMU

Combined cycle power plant (CCPP) is a closed-cycle power plant, where the heat from the gas turbine’s (GT) exhaust gas will be streamed to the heat recovery steam generator (HRSG) to be utilized by steam turbine (ST). CCPP Block 4 (Jawa-2) PT Indonesia Power Priok POMU has an installed capacity of 880 MW, consists of 2 GT units (301.5 MW each) and 1 ST unit (307.5 MW). The performance of a power plant depends on its load, as the efficiency of the turbine generator is low when operated at low loads. The data as of July 2019 showed that 2.2.1 (2 GT, 2 HRSG, 1 ST) configuration has been used in three conditions where the CC net load was around 30 - 45 %, which in fact could be compensated by the 1.1.1 (1 GT, 1 HRSG, 1 ST) configuration. This resulted in a decrease of the CC net efficiency up to 21.34 %. The optimization that can be done is to change the load configuration from 2.2.1 to 1.1.1 at 0 - 50 % of CC net load through simulations, by including the influence of the GT and HRSG start-up processes. The result of this optimization is that the CCPP performance increases due to higher performance of each turbine generator. Thus, the optimization results during July 2019 provided energy saving of 1,146.09 MMBTU or equivalent to cost saving of IDR 152,249,551.76.

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来源期刊

Journal of Mechatronics Electrical Power and Vehicular Technology

CiteScore

0.70

自引率

0.00%

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