| Title | 一种可视化电场强化微通道沸腾传热实验装置 |
| Alternative Title | Visual electric field enhanced micro-channel boiling heat transfer experimental device
|
| Author | |
| First Inventor | 庄晓如
|
| Original applicant | 南方科技大学
|
| First applicant | 南方科技大学
|
| Address of First applicant | 518055 广东省深圳市南山区学苑大道1088号
|
| Current applicant | 南方科技大学
|
| Address of Current applicant | 518055 广东省深圳市南山区学苑大道1088号 (广东,深圳,南山区)
|
| First Current Applicant | 南方科技大学
|
| Address of First Current Applicant | 518055 广东省深圳市南山区学苑大道1088号 (广东,深圳,南山区)
|
| Application Number | CN202122664314.X
|
| Application Date | 2021-11-02
|
| Open (Notice) Number | CN216560149U
|
| Date Available | 2022-05-17
|
| Publication Years | 2022-05-17
|
| Status of Patent | 授权
; 一案双申
|
| Legal Date | 2022-05-17
|
| Subtype | 实用新型
|
| SUSTech Authorship | First
|
| Abstract | 本实用新型提供了一种可视化电场强化微通道沸腾传热实验装置,其包括微通道沸腾换热测试装置、与所述微通道沸腾换热测试装置连通的换热工质循环回路装置,与所述微通道沸腾换热测试装置电连接的外加电场发生装置,以及用于对所述微通道沸腾换热测试装置的测试过程进行可视化观测的可视化观测装置;所述微通道沸腾换热测试装置包括微通道沸腾换热器,可拆卸安装在所述微通道沸腾换热器上的单头电加热管,以及与所述单头电加热管电连接的可调功率电源。本实用新型利用氧化铟锡导电膜良好的透光性和导电性,借助可视化观测装置实现对电场强化微通道沸腾传热的可视化观察研究,且其操作方便、测试精度高。 |
| Other Abstract | The utility model provides a visual electric field enhanced micro-channel boiling heat transfer experimental device, which comprises a micro-channel boiling heat transfer testing device, a heat transfer working medium circulation loop device communicated with the micro-channel boiling heat transfer testing device, and an external electric field generating device electrically connected with the micro-channel boiling heat transfer testing device, the visual observation device is used for carrying out visual observation on the test process of the micro-channel boiling heat transfer test device; the micro-channel boiling heat exchange testing device comprises a micro-channel boiling heat exchanger, a single-head electric heating tube detachably mounted on the micro-channel boiling heat exchanger, and a power-adjustable power supply electrically connected with the single-head electric heating tube. According to the utility model, the good light transmission and conductivity of the indium tin oxide conductive film are utilized, the visual observation research on boiling heat transfer of the electric field enhanced microchannel is realized by virtue of the visual observation device, the operation is convenient, and the test precision is high. |
| CPC Classification Number | Y02E30/30
|
| IPC Classification Number | G01N11/00
; G01N25/20
|
| INPADOC Legal Status | (+PATENT GRANT)[2022-05-17][CN]
|
| INPADOC Patent Family Count | 1
|
| Extended Patent Family Count | 2
|
| Priority date | 2021-11-02
|
| Patent Agent | 徐凯凯
|
| Agency | 深圳市君胜知识产权代理事务所(普通合伙)
|
| URL | [Source Record] |
| Data Source | PatSnap
|
| Document Type | Patent |
| Identifier | http://kc.sustech.edu.cn/handle/2SGJ60CL/533050 |
| Department | Department of Mechanics and Aerospace Engineering |
| Recommended Citation GB/T 7714 |
庄晓如,余鹏,李翔,等. 一种可视化电场强化微通道沸腾传热实验装置[P]. 2022-05-17.
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