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Investigation of Boiling Heat Transfer Phenomena Associated with Impinging Liquid Jets

与冲击液体射流相关的沸腾传热现象的研究

基本信息

批准号：
RGPIN-2016-06312
负责人：
Hamed, Mohamed
金额：
$ 1.89万
依托单位：
McMaster University
依托单位国家：
加拿大
项目类别：
Discovery Grants Program - Individual
财政年份：
2016
资助国家：
加拿大
起止时间：
2016-01-01 至 2017-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=616228
关键词：
Investigation Boiling Heat Transfer Phenomena

项目摘要

Many manufacturing operations such as for continuous casting, hot and cold rolling of slabs and strips, hardening, extrusion and forging, employ liquid jet impingement boiling because they require intensive cooling rates at specific temperatures, i.e., "Controlled Intensive Cooling" rates. However, the need for precise controlled intensive cooling rates poses a significant technological challenge because of the lack of predictive tools that can be used to design and operate proper controlled intensive cooling systems. Current industrial practices rely on trial and error and on accumulated field knowledge. Consequently, hundreds of millions of dollars are wasted every year; millions of tons of harmful emissions are released into the environment due to reprocessing and scraping of metal parts that did not meet production specifications due to distortion, cracking, or lack of proper mechanical properties caused by improper controlled intensive cooling. The lack of proper mechanical properties caused by improper controlled intensive cooling prevents our materials processing industry from opening new markets. In fact, controlled intensive cooling is not only important for the metal processing industry, but also for other industries. For example, in electronics thermal management, the lack of proper controlled intensive cooling systems is currently the major obstacle for offering the next generation of high-speed processors. The proposed experimental research in this application is concerned with the development of comprehensive models that our Canadian industry can use to better design the next generation of controlled intensive cooling systems using water jets.

许多制造操作，如连铸、冷轧板坯和带材、硬化、挤压和锻造，都采用液体喷射冲击沸腾，因为它们需要在特定温度下的强化冷却速率，即“可控强化冷却”速率。然而，由于缺乏可用于设计和操作适当控制的强化冷却系统的预测工具，对精确控制强化冷却速率的需求构成了重大的技术挑战。

项目成果

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Hamed, Mohamed其他文献

Rs205764 and rs547311 in linc00513 may influence treatment responses in multiple sclerosis patients: A pharmacogenomics Egyptian study.

DOI：
10.3389/fimmu.2023.1087595
发表时间：
2023
期刊：
FRONTIERS IN IMMUNOLOGY
影响因子：
7.3
作者：
Amin, Nada Sherif;Abd El-Aziz, Mostafa K.;Hamed, Mohamed;Moustafa, Ramez Reda;El Tayebi, Hend M.
通讯作者：
El Tayebi, Hend M.

Implementation of BSG/ACPGBI/PHE polypectomy surveillance guidelines safely reduces the burden of surveillance in a screening cohort: a virtual model study.

BSG/ACPGBI/PHE 息肉切除术监测指南的实施安全地减轻了筛查队列中的监测负担：虚拟模型研究。

DOI：
10.1136/bmjgast-2023-001160
发表时间：
2023-09
期刊：
BMJ OPEN GASTROENTEROLOGY
影响因子：
3.1
作者：
Stack, Roisin;Doherty, Jayne;O'Morain, Neil;Nolan, Blathnaid;Sheridan, Juliette;Cullen, Garret;Mulcahy, Hugh;Buckley, Maire;Horgan, Gareth;Hamed, Mohamed;Mcdermott, Edel;Doherty, Glen
通讯作者：
Doherty, Glen