A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Coupling sinking reclaimed water plant buried pipe geothermal energy collection system and collection method
The invention discloses a heat energy collecting system of a coupling sinking type regeneration water plant, a setting method thereof and a heat energy collecting method. The system comprises a sunken water reclamation plant, a buried pipe heat exchange unit, a heat pump unit, a backfill material and a control unit, wherein the sunken water reclamation plant comprises a sewage treatment unit buried in the backfill material; the buried pipe heat exchange unit comprises a plurality of buried pipe heat exchangers, the heat pump unit is communicated with the main water outlet pipe and the main water inlet pipe, and the control unit is in signal connection with the temperature sensor, the water pump and the heat pump unit. By coupling a'heat island 'effect of an underground large-scale structure of the sinking type regeneration water plant, the heat exchange efficiency of the buried pipe heat exchanger can be improved, the cold and hot accumulation phenomenon of the sinking type regeneration water plant can be avoided, efficient utilization of sewage energy is realized in an energy efficiency improvement form, and meanwhile, the influence of the'heat island' effect on a sewage treatment process is also avoided; by efficiently utilizing green and clean energy, the dual-carbon target is assisted to be achieved by means of energy conservation, consumption reduction and emission reduction.
一种耦合下沉式再生水厂的热能采集系统及其设置方法,和热能采集方法。该系统包括下沉式再生水厂、地埋管换热单元、热泵机组、回填材料及控制单元,下沉式再生水厂包括埋设于回填材料中的污水处理单元;地埋管换热单元包括若干地埋管换热器,热泵机组与总出水管和总进水管连通,控制单元分别与温度传感器、水泵和热泵机组信号连接。通过耦合下沉式再生水厂地下大型构筑物的“热岛”效应,既能提高地埋管换热器的换热效率,又可避免下沉式再生水厂冷热堆积现象,以能量增效的形式,实现污水能量高效利用,同时也避免了“热岛效应”对污水处理工艺的影响,通过高效利用绿色清洁能源,以节能、降耗、减排的手段,助力实现“双碳”目标。
Coupling sinking reclaimed water plant buried pipe geothermal energy collection system and collection method
The invention discloses a heat energy collecting system of a coupling sinking type regeneration water plant, a setting method thereof and a heat energy collecting method. The system comprises a sunken water reclamation plant, a buried pipe heat exchange unit, a heat pump unit, a backfill material and a control unit, wherein the sunken water reclamation plant comprises a sewage treatment unit buried in the backfill material; the buried pipe heat exchange unit comprises a plurality of buried pipe heat exchangers, the heat pump unit is communicated with the main water outlet pipe and the main water inlet pipe, and the control unit is in signal connection with the temperature sensor, the water pump and the heat pump unit. By coupling a'heat island 'effect of an underground large-scale structure of the sinking type regeneration water plant, the heat exchange efficiency of the buried pipe heat exchanger can be improved, the cold and hot accumulation phenomenon of the sinking type regeneration water plant can be avoided, efficient utilization of sewage energy is realized in an energy efficiency improvement form, and meanwhile, the influence of the'heat island' effect on a sewage treatment process is also avoided; by efficiently utilizing green and clean energy, the dual-carbon target is assisted to be achieved by means of energy conservation, consumption reduction and emission reduction.
一种耦合下沉式再生水厂的热能采集系统及其设置方法,和热能采集方法。该系统包括下沉式再生水厂、地埋管换热单元、热泵机组、回填材料及控制单元,下沉式再生水厂包括埋设于回填材料中的污水处理单元;地埋管换热单元包括若干地埋管换热器,热泵机组与总出水管和总进水管连通,控制单元分别与温度传感器、水泵和热泵机组信号连接。通过耦合下沉式再生水厂地下大型构筑物的“热岛”效应,既能提高地埋管换热器的换热效率,又可避免下沉式再生水厂冷热堆积现象,以能量增效的形式,实现污水能量高效利用,同时也避免了“热岛效应”对污水处理工艺的影响,通过高效利用绿色清洁能源,以节能、降耗、减排的手段,助力实现“双碳”目标。
Coupling sinking reclaimed water plant buried pipe geothermal energy collection system and collection method
一种耦合下沉再生水厂地埋管地热能采集系统及采集方法
ZHU KE (author) / JIANG LEYONG (author) / PANG HONGTAO (author) / HOU FENG (author) / LI PENG (author) / ZHAI DANDAN (author) / ZHAO YINGCHU (author)
2023-10-31
Patent
Electronic Resource
Chinese
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