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燃煤发电机组瞬态变负荷过程性能优化研究OA

Research on Performance Optimization of Transient Load Change Process in Coal-Fired Power Units

中文摘要英文摘要

[目的]随着可再生能源发电装机量快速攀升,对燃煤发电机组运行灵活性要求愈发严苛.在此背景下,机组关键热力参数控制难度增大,瞬态变负荷时系统能效降低,为此,需开发多参数协同调控策略,以平衡变负荷速率与能效水平.[方法]基于GSE仿真平台,构建并验证了350 MW超临界燃煤机组动态模型,同时建立了包含锅炉内工质及管道金属蓄热的锅炉系统蓄热模型.在采用高压加热器抽汽节流的基础上,提出考虑锅炉系统内部蓄热变化规律的优化控制策略.[结果]在 30%~50%热耗率验收(turbine heat acceptance,THA)工况升负荷过程中,高压加热器抽汽节流使机组最大升负荷速率从1.5%Pe/min(Pe为额定负荷)提至2.5%Pe/min,瞬态过程平均标准煤耗率达314.81 g·(kW·h)-1.而在满足电力标准前提下,通过优化控制策略实现了瞬态过程平均节煤量达0.67 g·(kW·h)-1.[结论]该优化控制策略既能显著提升机组升负荷速率,又可高效改善系统能效,为燃煤机组的高效、稳定运行提供了有力支撑.

[Objectives]With the rapid increase in the installed capacity of renewable energy generation,the requirements for the operational flexibility of coal-fired power units are becoming increasingly stringent.In this context,the control of key thermal parameters of the units becomes more challenging,and the system energy efficiency decreases during transient load change processes.Therefore,it is necessary to develop a multi-parameter coordinated control strategy to balance load change rates with energy efficiency levels.[Methods]Based on the GSE simulation platform,this study constructs and validates a dynamic model of a 350 MW supercritical coal-fired power unit.Additionally,a boiler system heat storage model incorporating the heat storage of the working fluid and pipeline metal is established.On the basis of adopting high-pressure heater extraction steam throttling,an optimized control strategy is proposed that takes into account the change patterns of internal heat storage within the boiler system.[Results]During the load increase from 30%to 50%turbine heat acceptance(THA),high-pressure heater extraction steam throttling increases the maximum load increase rate of the unit from 1.5%Pe/min(where Pe represents the rated load)to 2.5%Pe/min.However,the average standard coal consumption rate during the transient process reaches 314.81 g·(kW·h)-1.Under the premise of meeting the power standards,the optimized control strategy achieves an average coal savings of 0.67 g·(kW·h)-1 during the transient process.[Conclusions]The optimized control strategy can not only significantly increase the load increase rate but also efficiently improve the system energy efficiency,providing strong support for the efficient and stable operation of coal-fired power units.

陈禄;王波;王登亮;陈伟雄;刘继平

西安交通大学动力工程多相流国家重点实验室,陕西省 西安市 710049||中能建数字科技集团有限公司,北京市 朝阳区 100000西安交通大学动力工程多相流国家重点实验室,陕西省 西安市 710049||国能锦界能源有限责任公司,陕西省 榆林市 719319西安交通大学动力工程多相流国家重点实验室,陕西省 西安市 710049西安交通大学动力工程多相流国家重点实验室,陕西省 西安市 710049西安交通大学热流科学与工程教育部重点实验室,陕西省 西安市 710049

能源科技

燃煤发电燃煤锅炉深度调峰低负荷超超临界机组能耗分析锅炉蓄热瞬态变负荷

coal-fired power generationcoal-fired boilerdeep peak shavinglow loadultra-supercritical unitenergy consumption analysisboiler heat storagetransient load change process

《发电技术》 2026 (1)

157-167,11

国家重点研发计划项目(2022YFB4100400).Project Supported by National Key R&D Program of China(2022YFB4100400).

10.12096/j.2096-4528.pgt.260114

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