Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Novel graphene electric heating solid wood composite energy storage floor
According to the novel graphene electric heating solid wood composite energy storage floor, on the premise that a traditional electric heating floor is kept, a user can have better and safer life experience, meanwhile, energy consumption is further reduced through a low-temperature heating and temperature adjusting system, and a new thought is provided for green home life. The floor is of a three-layer structure, a base material layer is attached to a graphene heat dissipation layer, and the heat transfer efficiency of the graphene heat dissipation layer is improved through fins; the time for heating the floor surface to the comfortable temperature of the human body and the time for cooling the floor are obtained through simulation and experiments, and therefore heating of the floor can be controlled only through a simple timer. And finally, the heat storage performance of the floor is good through experimental comparison, and the floor has certain actual value.
一种新型石墨烯电加热实木复合蓄能地板,在保持传统电加热地板的前提下使用户产生更加优质、安全的生活体验,同时低温加热和温度调节系统使得能源消耗进一步降低,为绿色家居生活提供了一种新的思路。该地板为三层结构,基材层与石墨烯散热层贴合,石墨烯散热层通过肋片增大传热效率;整体地板通过仿真和实验得到地板板面加热到人体舒适温度的时间和地板降温的时间,因此,只需通过简单的计时器进行控制地板加热。最后,通过实验对比得到地板的蓄热性能良好,具有一定的实际价值。
Novel graphene electric heating solid wood composite energy storage floor
According to the novel graphene electric heating solid wood composite energy storage floor, on the premise that a traditional electric heating floor is kept, a user can have better and safer life experience, meanwhile, energy consumption is further reduced through a low-temperature heating and temperature adjusting system, and a new thought is provided for green home life. The floor is of a three-layer structure, a base material layer is attached to a graphene heat dissipation layer, and the heat transfer efficiency of the graphene heat dissipation layer is improved through fins; the time for heating the floor surface to the comfortable temperature of the human body and the time for cooling the floor are obtained through simulation and experiments, and therefore heating of the floor can be controlled only through a simple timer. And finally, the heat storage performance of the floor is good through experimental comparison, and the floor has certain actual value.
一种新型石墨烯电加热实木复合蓄能地板,在保持传统电加热地板的前提下使用户产生更加优质、安全的生活体验,同时低温加热和温度调节系统使得能源消耗进一步降低,为绿色家居生活提供了一种新的思路。该地板为三层结构,基材层与石墨烯散热层贴合,石墨烯散热层通过肋片增大传热效率;整体地板通过仿真和实验得到地板板面加热到人体舒适温度的时间和地板降温的时间,因此,只需通过简单的计时器进行控制地板加热。最后,通过实验对比得到地板的蓄热性能良好,具有一定的实际价值。
Novel graphene electric heating solid wood composite energy storage floor
一种新型石墨烯电加热实木复合蓄能地板
YANG CHUNMEI (Autor:in) / GUAN BO (Autor:in) / TIAN XINCHI (Autor:in) / MA YAN (Autor:in) / ZHANG JIAWEI (Autor:in) / DING YUCHENG (Autor:in)
25.11.2022
Patent
Elektronische Ressource
Chinesisch
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