Heat pipe circuit type thermal battery
First Claim
1. A heat type thermal battery for storing, releasing and utilizing heat and cold energies comprising an energy storing chamber, a heat pipe circuit, a high-temperature heat exchanger serving as a heat source, and a low-temperature heat exchanger serving as a heat sink;
- said energy storing chamber being filled with phase change medium therein and being covered around outer surfaces with thermal insulating material, top cover and bottom drain being provided at top and bottom of said energy storing chamber, respectively;
said heat pipe circuit including a plurality of vertically arranged parallel heat pipes that are located inside said energy storing chamber and have fins densely arranged around outer surfaces thereof, a vertical high-temperature heat transfer pipe and a vertical low-temperature heat transfer pipe that are separately located at two outer sides of said energy storing chamber and have fins provided on inner and outer surfaces thereof, and an upper and a lower horizontal pipe that respectively connect and communicate upper and lower ends of said parallel heat pipes, said vertical high-temperature heat transfer pipe, and said low-temperature heat transfer pipe;
working fluid being filled in said heat pipe circuit, and a pressure-limiting safety chamber located outside said energy storing chamber being connected to said vertical high-temperature heat transfer pipe at a predetermined point; and
said high-temperature heat exchanger serving as a heat source and said low-temperature heat exchanger serving as a heat sink being located outside said energy storing chamber to form flowing fluid passages and enclose said vertical high-temperature heat transfer pipe and said vertical low-temperature heat transfer pipe, respectively, and thermal insulating material bing provided around outer surfaces of said high-temperature and said low-temperature heat exchangers; and
wherein said high-temperature heat exchanger serving as a heat source has high-temperature flowing fluid passing therethrough to boil said working fluid flowing through said vertical high-temperature heat transfer pipe, and said boiled working fluid condensing in said vertically arranged parallel heat pipes and melting said phase change medium filled in said energy storing chamber, whereby heat energy is transferred from said high-temperature flowing fluid to said working fluid and then stored in said phase change medium in said thermal battery; and
wherein said low-temperature heat exchanger serving as a heat sink has low-temperature flowing fluid passing therethrough to absorb energy stored in said phase change medium of said thermal battery to obtain an increased enthalpy value by cooling said working fluid flowing through said vertical low-temperature heat transfer pipe, and said cooled working fluid boiling in said vertically arranged parallel heat pipes and solidifying said phase change medium filled in said energy storing chamber, whereby heat energy stored in said phase change medium in said thermal battery is released and absorbed by said working fluid.
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Abstract
Disclosed is a heat pipe circuit type thermal battery which can store, release, and efficiently utilize heat and/or cold. The thermal battery mainly includes an energy storing chamber for containing phase change medium to store or release heat energy via the change of the phase change medium between the solid and liquid phases, a heat pipe circuit formed from a plurality of vertically arranged parallel heat pipes to guide working fluid flowing therein and transfer energy through phase changes of condensing and boiling of the working fluid, and two heat exchangers separately serving as heat source and heat sink. Heat energy contained in flowing fluid in the heat-source heat exchanger is transferred to the working fluid in the heat pipe circuit and then stored in the energy storing chamber. On the other hand, energy stored in the energy storing chamber can be released and transferred to the heat-sink heat exchanger via the heat pipe circuit. With superior thermal conductivity, the heat pipes can automatically and effectively store or release energy just like a battery without the need of electrical power.
50 Citations
2 Claims
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1. A heat type thermal battery for storing, releasing and utilizing heat and cold energies comprising an energy storing chamber, a heat pipe circuit, a high-temperature heat exchanger serving as a heat source, and a low-temperature heat exchanger serving as a heat sink;
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said energy storing chamber being filled with phase change medium therein and being covered around outer surfaces with thermal insulating material, top cover and bottom drain being provided at top and bottom of said energy storing chamber, respectively;
said heat pipe circuit including a plurality of vertically arranged parallel heat pipes that are located inside said energy storing chamber and have fins densely arranged around outer surfaces thereof, a vertical high-temperature heat transfer pipe and a vertical low-temperature heat transfer pipe that are separately located at two outer sides of said energy storing chamber and have fins provided on inner and outer surfaces thereof, and an upper and a lower horizontal pipe that respectively connect and communicate upper and lower ends of said parallel heat pipes, said vertical high-temperature heat transfer pipe, and said low-temperature heat transfer pipe;
working fluid being filled in said heat pipe circuit, and a pressure-limiting safety chamber located outside said energy storing chamber being connected to said vertical high-temperature heat transfer pipe at a predetermined point; and
said high-temperature heat exchanger serving as a heat source and said low-temperature heat exchanger serving as a heat sink being located outside said energy storing chamber to form flowing fluid passages and enclose said vertical high-temperature heat transfer pipe and said vertical low-temperature heat transfer pipe, respectively, and thermal insulating material bing provided around outer surfaces of said high-temperature and said low-temperature heat exchangers; and
wherein said high-temperature heat exchanger serving as a heat source has high-temperature flowing fluid passing therethrough to boil said working fluid flowing through said vertical high-temperature heat transfer pipe, and said boiled working fluid condensing in said vertically arranged parallel heat pipes and melting said phase change medium filled in said energy storing chamber, whereby heat energy is transferred from said high-temperature flowing fluid to said working fluid and then stored in said phase change medium in said thermal battery; and
wherein said low-temperature heat exchanger serving as a heat sink has low-temperature flowing fluid passing therethrough to absorb energy stored in said phase change medium of said thermal battery to obtain an increased enthalpy value by cooling said working fluid flowing through said vertical low-temperature heat transfer pipe, and said cooled working fluid boiling in said vertically arranged parallel heat pipes and solidifying said phase change medium filled in said energy storing chamber, whereby heat energy stored in said phase change medium in said thermal battery is released and absorbed by said working fluid.- View Dependent Claims (2)
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Specification