江苏省科技期刊可视化阅读平台

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《新能源科技》杂志社 ›› 2025, Vol. 6 ›› Issue (1): 35-40.doi: 10.20145/j.32.1894.20250105

• 前沿科技 • 上一篇    下一篇

多能协同冷热联供技术在冬冷夏热地区公共建筑中的应用

孟雷金1, 王肖祎2*, 张汛杨3, 常伟国3, 何晟3   

  1. 1.无锡华光环保能源集团股份有限公司,江苏 无锡 214111;
    2.东南大学建筑设计研究院有限公司,江苏 南京 210096;
    3.无锡新联热力有限公司,江苏 无锡 214000
  • 发布日期:2025-03-21
  • 通讯作者: *王肖祎(1990—),女,高级工程师,硕士;研究方向:能源、环保行业咨询设计工作。shawwxy@163.com
  • 作者简介:孟雷金(1974—),男,高级工程师,学士;研究方向:热能工程、热电联产运营管理。365114500@qq.com
  • 基金资助:
    江苏省建设系统科技项目(7603009138)。

Application of multi-energy collaborative cooling and heat supplying technology in public buildings in cold winter and hot summer areas

MENG Leijin1, WANG Xiaoyi2*, ZHANG Xunyang3, CHANG Weiguo3, HE Sheng3   

  1. 1. Wuxi Huaguang Environment & Energy Group Co.,Ltd., Wuxi 214111,China;
    2. Southeast University Architectural Design and Research Institute Company, Nanjing 210096,China;
    3. Wuxi Xinlian Thermal Power Co., Ltd., Wuxi 214000,China
  • Published:2025-03-21

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摘要: 随着我国城市化进程不断加快,人们对建筑物舒适度的要求不断提高,大型公用建筑能耗强度较高,其供冷供热能耗占总能耗近60%。“双碳”目标提出后,降低公用建筑能耗是建筑节能和绿色建筑实施的必经之路。文章以冬冷夏热地区某新建医院为例,对其采暖制冷负荷进行模拟分析,根据负荷需求,结合区域供能特点,采用光伏+地源热泵,结合区域供热和绿电,配置了适用于冬冷夏热地区的多能协同冷热联供系统。该系统不仅具有良好的节能降碳优势,与常规“水冷机组+燃气锅炉”供能相比,还具有明显的经济效益。在冬冷夏热地区大型公共项目中具有一定的推广意义。

关键词: 多能协同, 冷热联供, 光伏, 热泵, 双碳

Abstract: With the continuous acceleration of urbanization in our country, requirements for building comfort level are constantly increasing. Large public buildings have a higher energy consumption intensity, the cooling and heating energy consumption accounts for nearly 60% of the total energy consumption. After the “dual carbon” target was proposed, reducing the energy consumption of public buildings is a necessary path for building energy conservation and green building implementation. This article takes a newly building hospital in a cold winter and hot summer area as an example to simulate and analyze its heating and cooling load. Based on the load demanding and the characteristics of regional energy supplying, a photovoltaic + ground source heat pump system is adopted, combined with regional heating and green electricity, to configure a multi energy collaborative cold and heat supply system suitable for cold winter and hot summer areas. This system not only has good energy-saving and carbon reduction advantages, but also has significant economic benefits compared to conventional “water-cooled units + gas boilers” for energy supply. It has certain promotional significance in large-scale public projects in cold winter and hot summer areas.

Key words: multifunctional collaboration, combined supply of cold and heat, solar power, heat pump, dual carbon

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