摘要
在“双碳”目标推动下,新能源供应链正朝着清洁化、高效化方向加速转型。光伏能源的间歇性与热能动力的稳定输出特性形成天然互补,二者协同集成成为破解新能源供应矛盾、优化供应链能源配置的重要路径。基于此,本文围绕热能动力与光伏能源的协同集成系统展开研究,设计包含太阳能采暖系统、太阳能光电系统及控制系统的协同集成架构,通过稳定性测试验证系统在实际运行中的可靠性,并进一步评估系统应用的经济性与可行性。研究表明,该协同集成系统可实现光伏能源与热能动力的优势互补,有效提升能源供应的稳定性与灵活性,在新能源供应链中具备良好的应用前景与推广价值。
Driven by the"dual carbon"goal,the new energy supply chain is accelerating its transformation towards cleanliness and efficiency.The intermittency of photovoltaic energy and the stable output characteristics of thermal power form a natural complementarity,and the synergistic integration of the two becomes an important path to solve the contradiction of new energy supply and optimize the energy configuration of the supply chain.Based on this,this article focuses on the collaborative integration system of thermal power and photovoltaic energy,designs a collaborative integration architecture including solar heating system,solar photovoltaic system and control system,verifies the reliability of the system in actual operation through stability testing,and further evaluates the economic and feasibility of the system application.Research has shown that this collaborative integrated system can achieve complementary advantages between photovoltaic energy and thermal power,effectively improving the stability and flexibility of energy supply,and has good application prospects and promotion value in the new energy supply chain.
作者
姚凯旋
陈冬梅
周倩
彭会荣
柘淳天
YAO Kaixuan;CHEN Dongmei;ZHOU Qian;PENG Huirong;ZHE Chuntian(China Energy Engineering Group Yunnan Electric Power Design Institute Co.,Ltd.,Kunming Yunnan 650051)
出处
《中国科技纵横》
2025年第21期15-17,共3页
China Science & Technology Overview
关键词
热能动力
光伏能源
协同集成
新能源
供应链
thermal power
photovoltaic energy
synergistic integration
new energy
supply chain
