Researches and Fabrication on a Novel Generation Heat Pipe with Thermoelectric Nanofluids Using Dimensional Analysis

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基本資料

Project title

Code/計畫編號

MOST105-2221-E019-064-MY2

Translated Name/計畫中文名

因次分析新一代熱電奈米流體熱電管研製

Project Coordinator/計畫主持人

Jung-Chang Wang

Funding Organization/主管機關

National Science and Technology Council

Department/Unit

Department of Marine Engineering

Website

https://www.grb.gov.tw/search/planDetail?id=11894303

Year

2016

Start date/計畫起

01-08-2016

Expected Completion/計畫迄

31-07-2017

Bugetid/研究經費

931千元

ResearchField/研究領域

能源工程

本計畫「因次分析新一代熱電奈米流體熱電管研製」是結合伏打電池(Voltaic Pile)、熱管(Heat Pipe, HP)和熱電奈米等級工作流體(Thermo-Electric Nano-Fluid)的優良性能，研製具有學術創新性及前瞻性的熱電管(Generation Heat Pipe, GHP)元件。此元件同時具有增強熱傳性能及自身產生發電的特性，可達成綠色能源循環再利用之效益。而為了要能夠完整充分地探討熱電奈米等級工作流體的研製及分析其應用充填於熱電管元件內，故本計畫將分為兩年來執行。第一年度計畫的研究目的即是利用因次分析法和田口試驗法配合性能實驗，分析不同種類的奈米等級工作流體在不同真空度的工作環境下，對於溫度所造成之熱流與熱電性能的優劣。並建立奈米等級工作流體熱電性能之理論模式及數值模擬分析方法，以作為第二年度計畫發展目標的基礎。所以第二年度計畫主要是建立以熱流與熱電分析實驗為基礎的驗證，研製並測試熱電管元件的性能，並以最佳化設計作為本年度計畫達成的目標。因此，本計畫在學術方面上及工程實際應用上，皆具有相當的研究價值及創新性。台灣目前已是全世界生產散熱模組的主要國家，總產值高達第二名；如果要能持續保持這樣的優勢，比其他先進國家更領先進一步開發具有增強熱傳性能及自身微發電效率的熱電管元件是非常重要的。The project ""Researches and fabrication on a novel generation heat pipe with thermoelectric nanofluids using dimensional analysis"" is a combination of photovoltaic cells (Voltaic Pile), heat pipes (Heat Pipe, HP) and thermal nano-grade working fluid (Thermo-Electric Nano-Fluid) of excellent performance, developed with innovative and forward-looking academic thermoelectric tube (Generation Heat Pipe, GHP) components. This element also has enhanced heat transfer properties and characteristics of self-generated electricity, can achieve benefits of green energy recycling. In order to be able to complete the development of thermoelectric nanotechnology to fully investigate the working fluid grade and analyze their application filled in the thermoelectric tube element, so the project will be divided into two years to implement. Objective of the first plan year that is the use of dimensional analysis and Taguchi testing method with the performance test, analysis of different types of nano-grade working fluid at different vacuum environment, the heat caused by the temperature and thermoelectric properties pros and cons. And the establishment of theoretical models nanometer thermoelectric properties of the working fluid grades and numerical simulation analysis as a basis for program development goals for the second year. So the second annual plan mainly thermoelectric heat flow analysis to establish the basis of experimental verification, development and testing of thermoelectric tube element performance and to optimize the design project as the target year to achieve. Therefore, this project has all considerable research value and innovation in the practical application of engineering and academic aspects. Taiwan is now the major countries of the world production of cooling modules, with a total of up to second; if you want to be able to continue to maintain this advantage, more than any other advanced countries leading to further develop an enhanced heat transfer performance and their own micro thermoelectric power generation efficiency tube element is very important.

Keyword(s)

伏打電池
微發電
熱電管
電化學
熱電奈米流體
兩相熱傳
Voltaic Pile
Micro-Generation
Generation Heat Pipe
Two-Phase Flow
Electrochemistry
Thermo-Electric Nano-fluid

DSpace CRIS

Researches and Fabrication on a Novel Generation Heat Pipe with Thermoelectric Nanofluids Using Dimensional Analysis

基本資料

Description