新型肋波带对过渡流态太阳能空气加热器强化传热影响的实验研究

IF 2.5 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Suvanjan Bhattacharyya, Devendra Kumar Vishwakarma, Manoj K. Soni
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引用次数: 0

摘要

摘要实验研究了一种新型肋波带对过渡流态太阳能空气加热器增热的影响。使用三种不同的波比,在雷诺数从521到10194变化的情况下,用热流均匀加热管。plain tube的过渡开始于2810,结束于3724。与普通管相比,带波纹带的波纹管的转捩开始早,结束雷诺数高。当热流密度为2 kW/m2时,波比为3的波纹带的过渡开始于雷诺数2589,而当热流密度为4 kW/m2时,过渡开始于雷诺数2745。在热流密度为2和4 kW/m2时,波比为3的转捩结束分别发生在雷诺数3969和4139处。均匀热流下,随着波比的增大,过渡长度减小。在4 kW/m2热流条件下,波比为3的肋波带的努塞尔数平均增强率分别为262%和85%。开发了两个经验相关性来预测所有流型的努塞尔数和摩擦因子。关键词:湍流;波纹状毡状过渡流态;努瑟尔数;摩擦因子致谢我诚挚地感谢由BITS Pilani, Pilani校区的研究启动基金和额外竞争研究基金提供的资金。披露声明作者未报告潜在的利益冲突。这项工作得到了皮拉尼Birla技术与科学研究所的支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The influence of a novel ribbed wave tape on the enhancement of heat transfer in a solar air heater operating in a transitional flow regime: an experimental study
ABSTRACTThe effect of a novel ribbed wave tape on the augmentation of heat transfer in a solar air heater operating in a transitional flow regime is experimentally examined. Three different wave ratios are used, and the tube is uniformly heated using heat fluxes while the Reynolds number varied from 521 to 10,194. The transition for plain tube begins at 2810 and ends at 3724. For tube with ribbed wavy tapes, transition begins early and ends at higher Reynolds number than plain tube. For 2 kW/m2 of heat flux, the transition for wavy tape having wave ratio 3 begins at Reynolds number 2589 while at heat flux of 4 kW/m2, the transition begins at Reynolds number 2745. The end of transition takes place at Reynolds number 3969 and 4139 for wave ratio 3 at heat fluxes 2 and 4 kW/m2, respectively. The length of transition decreases with increase in the wave ratio at uniform heat flux. The average enhancement in Nusselt number for ribbed wavy tapes having wave ratio 3 at 4 kW/m2 heat flux was 262% and 85% for laminar and turbulent flow regime, respectively. Two empirical correlations were developed to predict the Nusselt number and friction factor for all the flow regimes.KEYWORDS: Turbulatorsribbed wavy tapestransition flow regimeNusselt numberfriction factor AcknowledgmentsI would like to sincerely acknowledge the funding provided under the Research Initiation Grant and the Additional Competitive Research Grant of BITS Pilani, Pilani Campus.Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationFundingThe work was supported by the Birla Institute of Technology and Science, Pilani.
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来源期刊
Experimental Heat Transfer
Experimental Heat Transfer 工程技术-工程:机械
CiteScore
6.30
自引率
37.10%
发文量
61
审稿时长
>12 weeks
期刊介绍: Experimental Heat Transfer provides a forum for experimentally based high quality research articles and communications in the general area of heat-mass transfer and the related energy fields. In addition to the established multifaceted areas of heat transfer and the associated thermal energy conversion, transport, and storage, the journal also communicates contributions from new and emerging areas of research such as micro- and nanoscale science and technology, life sciences and biomedical engineering, manufacturing processes, materials science, and engineering. Heat transfer plays an important role in all of these areas, particularly in the form of innovative experiments and systems for direct measurements and analysis, as well as to verify or complement theoretical models. All submitted manuscripts are subject to initial appraisal by the Editor, and, if found suitable for further consideration, to peer review by independent, anonymous expert referees. All peer reviews are single blind and submission is online via ScholarOne Manuscripts. Original, normal size articles, as well as technical notes are considered. Review articles require previous communication and approval by the Editor before submission for further consideration.
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