低负···间歇···小学···筑热···负荷···究
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1.太阳···有效···分析
- 关键词:
- 太阳能采暖资源分区集热量有效保证率基金资助:国家自然科学基金(515909115167846851408462);国家重点研发计划(2016YFC0700400);DOI:10.19912/j.0254-0096.2019.02.039专辑:工程科技Ⅱ辑专题:建筑科学与工程分类号:TU832.17手机阅读
- 蒋婧···峰;···;刘··
- 0年
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- 期
- 期刊
现行···出的···采暖···是基···稳定···未考···动得···的过···非连···引起···用热···。因···合于···行的···采暖···提出···动有···和主···非连···的太···暖有···率,···计算···通过···析,···同地···能有···率的···围。···传统···能保···在不···热需···太阳···有效···均有···度的···可实···太阳···最大···。
...2.太阳···系统···性及···素研·
- 关键词:
- 太阳能供热集热系统过热度影响因素设计参数优化基金资助:“十三五”国家重点研发计划项目“藏区、西北及高原地区可再生能源采暖空调应用基础研究”(2016YFC0700400);国家自然科学基金(51678468,51878532);专辑:工程科技Ⅱ辑专题:建筑科学与工程DOI:10.27393/d.cnki.gxazu.2019.000196分类号:TU832.17导师:刘艳峰手机阅读
- 0年
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我国···暖面···建筑···耗总···,导···期雾···、环···严重···、利···生的···源供···决该···主要···一。···阳能···种易···洁能···国应···,常···筑供···源。···北地···能资···,大···区的···资源···达到···上,···西藏···区太···源等···到Ⅰ···些地···用太···热技···足平···中的···热水···但西···多处···和寒···,建···环境···以冬···为主···空调···造成···暖需···热量···其它···需热···前太···热系···热容···通常···供暖···基准···得在···节尤···季系···热容···,从···集热···生过···。综···,本···影响···集热···热特···素展···研究···究通···太阳···系统···、蓄···热(···卫生···)等···统的···量热···系,···响太···热系···的主···;通···分析···温、···照等···件及···倾角···流量···容积···条件···能集···过热···影响···提出···因素···系统···响程···先顺···以过···太阳···率等···优化···对两···(强···负荷···拉萨···射高···区-···的太···热系···了参···设计···以下···论:···通过···析,···集热···热影···主要···类,···素和···素。···素主···室外···度及···照强···计因···热媒···集热···、水···等;···太阳···系统···度会···热器···热媒···水箱···增加···,随···器面···加而···其中···针对···负荷···(非···的建···种因···统过···影响···高到···为:···倾角···器面···箱容···媒流···)针···热负···小(···的建···种因···统过···影响···高到···为:···倾角···器面···媒流···箱容···3)···各地···热负···过热···算得···结论···大部···全年···辐照···,且···资源···较其···相比···过热···西藏···地区···温及···异小···它地···,属···过热···(4···上述···已掌···系统···关键···及各···过热···响程···此,···系统···热,···萨、···区,···阳能···统进···匹配···结果···哈密···热程···,系···证冬···需求···下进···优化···,在···需依···的防···术,···地区···筑的···集热···可通···优化···法使···夏季···只产···过热···额外···金进···的防···计。···上研···了太···热系···热特···到影···过热···因素···各因···热系···程度···影响···给系···提供···论依···以后···能集···防过···打下···基础·
...3.冬季···生学···与温···实验··
- 蒋静···甲;···;许···刘加··
- 0年
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4.夏季···生学···与室···实验··
- 王登···延超···峰;···刘加··
- 0年
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5.沼气···EX···管换···实验··
- 关键词:
- PEX螺旋盘管沼气池换热性能实验研究基金资助:国家重点研发计划(2016YFC0700400);国家自然科学基金(5159091151678468);DOI:10.19912/j.0254-0096.2019.10.020专辑:工程科技Ⅱ辑 农业科技专题:动力工程 新能源 农业工程分类号:S216.4TK124手机阅读
- 刘艳···道坤···文;···;李·
- 0年
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建立···螺旋···热沼···实验···对影···换热···参数···入口···平均···和设···(螺···径、···进行···究。···析不···对沼···温度···盘管···和传···等参···响。···明:···温对···管换···的影···管内···速,···旋盘···水温···缩短···的预···,将···温由···升至···后,···预热···15···上缩···4 ···旋盘···均传···随螺···的增···距的···减小···螺旋···水平···的沼···分布···小。
...6.吸收···驱动···集热···集中···能研·
- 关键词:
- 太阳能供热;集热效率;太阳能集热器;热泵系统;耦合系统
- 王登···婷;···;刘···张睿·
- 《太阳···》
- 2021年
- 卷
- 11期
- 期刊
提出···收式···动大···能集···合集···新系···立吸···泵-···集热···耦合···型,···RN···仿真···提出···能评···。以···为例···新型···热系···分析···结果···在平···能集···积与···太阳···器面···的条···与现···能供···和简···板-···太阳···器串···能供···相比···型耦···系统···率可···5%···着平···能集···积与···太阳···器面···增大···太阳···能集···口温···降低···效率···增大···吸收···容量···太阳···器面···增大···太阳···器入···逐渐···集热···一步···证明···合系···效特···该耦···系统···、投···较大···对于···阳能···热系···效益···而小···能供···则不···
...7.热湿···然通···调交···优化··
- 刘露···培灿···;郑···刘艳·
- 《建筑···风空·》
- 2021年
- 卷
- 11期
- 期刊
本文···地区···利用···rg···us···地区···筑不···护结···下自···与空···运行···行了···优化···了不···功能···材料···比下···调启···及自···延迟···并获···墙传···与自···
...8.多孔···板热···室内···研究
- 关键词:
- 多孔供暖竖板;对流换热;辐射换热;室内热环境;温度分布;实验研究
- 王登···园;···
- 《暖通··》
- 2021年
- 卷
- 08期
- 期刊
提出···新型···暖竖···,具···灵活···应快···地面···卫生···等特···对该···孔供···,搭···尺寸···析实···台系···试了···水温···口直···孔密···键因···下的···对流···性及···环境···律。···可见···竖板···能增···,供···影响···著,···径、···度次···下孔···然通···的对···效果···最大···度可···12···s;···竖板···和竖···营造···均匀···室内···度。
...9.大尺···太阳···集热···究
- 关键词:
- 太阳集热器;集热效率;热损失;集热量;集热面积
- 王登···育超···峰;···
- 《太阳···》
- 2021年
- 卷
- 07期
- 期刊
平板···集热···效率···内部···数、···数等···关外···集热···尺寸···影响···建立···热面···下单···寸平···器、···规平···器的···理模···析了···热系···效率···量、···随尺···的变···。发···集热···件下···并联···板集···式,···平板···集热···所增···增大···但对···并联···热器···并联···大其···所占···有所···集热···有一···低;···单一···平板···,随···尺寸···热损···比例···且集···有所···研究···对大···集热···寸设···设计···
...10.Op···iz···on··· t···fl···re···ta··· c···ac···is···s ···th···ir··· r···rn···at···at···ol···co···ct···fi···
- 关键词:
- Solar collector fields; Flow-resistance characteristics; Influencefactors; Resistance calculate method
- Wa··· D···ji···ha··· R···ha···iu···an···g;···ng···in···Fa···Ji···ua
- 《SO··· E···GY》
- 2021年
- 215卷
- 期
- 期刊
Th···ne··· (···w)···si···nc···f ···nc··· p···s ···mo··· c···es···ca···ve···at··· a···fr···in···n ···ar···ll···or···el··· I···hi···ap··· t···re···ta··· c···ac···is···s ···th···ir··· r···rn···at···at···ol···co···ct···fi··· a···st···ed···in··· n···ri··· m···l.···e ···ur··· o···he···de···s ···if··· w··· e···ri···ta···at···an···he···xi··· r···ti···er··· i···el···10···A ··· e···ua···n ···ex···he···ti···f ···is···ce···ba···ce···te··· e···ci···y ···IR··· i···nt···uc··· I···hi···ay···t ···po···bl···o ···pr···ns···ly···al···e ··· e···ct··· d···er··· f···or···co···gu···io···fl···ra···pe···ni···ea···ol···ti···ar··· i···t ···pe···ur···wo···ng···di··· o···ot···he···si···nc···ha···te···ti···an···ff···en···of···e ···ar···ll···or···el···Th···es···s ···w ···t,···en···e ···be···f ···s ···ow···xc···s ··· n···er··· c···ec···s ···ea···ro···Nc···, ··· i···t ···pe···ur···s ···ow··· d···ee···. ···ad···io···th···lo···at···er···it···at···ll···io···re···s ···ow···06···3)··· m···).···nc···th···RI···is···al··· a···th···ys··· h···be···r ···is···ce···fi···nc···Co···de···g ··· v···os··· c···ge···e ···th···em···at··· c···ge··· t···fl··· o···he···la···ol···to···ie··· a···w ···pe···ur···if···en···co···ct··· m···od··· p···os··· T··· m···s ···po···bl···o ···cu···e ··· f···ti···l ···g ··· a···ui···n ··· c···ec··· f···d,···ic···ll··· a···re···al···ic···lc···ti···of···ow···si···nc···Th···st··· l··· t···fo···at··· f···im···ve···ay··· d···gn···d ···am···r ···im···ti···in···la···ol···to···ie···.
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