刮削法流态冰制取技术的研究现状
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- 英文论文题名:CURRENTRESEARCHSTATUS OF THEICE SLURRY GENERATION BASEDONSCRAPER TYPE
- 论文作者:黄成 ; 刘曦 ; 林仕 ; 李学来
- 英文论文作者:Huang Cheng ; LiuXi ; Lin Shi ; Li Xuelai ; School of Chemical Engineering of Fuzhou University
- 年:2016
- 作者机构:福州大学石油化工学院;
- 论文关键词:流态冰 ; 壁面刮削 ; 冰蓄冷技术 ; 研究现状
- 英文论文关键词:Ice slurry ; Scraper type ; Ice storage technology ; Current research status
- 会议召开时间:2016-11-29
- 会议录名称:福建省科协2016年学术年会分会场——福建省制冷学会2016年学术年会论文集
- 语种:中文
- 分类号:TB66
- 学会代码:FJZL
- 会议名称:福建省科协2016年学术年会分会场——福建省制冷学会2016年学术年会
- 会议地点:中国福建泉州
- 主办单位:福建省制冷学会
- 学会名称:福建省制冷学会
- 页数:7
- 文件大小:873k
- 原文格式:O
- 会议级别:地方
摘要
刮削法流态冰制取技术作为近年来被认为最有可能取得技术突破、实现流态冰规模生产的流态冰制取方法,其研究一直被各国科研人员所关注。本文通过叙述壁面刮削法流态冰制取技术原理、简述国内外相关研究成果及技术发展过程,阐明国内在该技术发展上现今存在的一些空白,以期促进该技术在国内的发展与应用。
In recent years,scraper type ice slurry generation is considered to be the ice slurry generated technology which is most likely to achieve technological breakthroughs.Related research has attractted attention of the researchers worldwide.In this paper,the system principles of the ice slurry generation based on scraper type was introduced,and the trend of the verifying field at home and abroad was analysed.By pointing out the existing problems at home,we hope could help bridge the research gap and promote its application and development.
In recent years,scraper type ice slurry generation is considered to be the ice slurry generated technology which is most likely to achieve technological breakthroughs.Related research has attractted attention of the researchers worldwide.In this paper,the system principles of the ice slurry generation based on scraper type was introduced,and the trend of the verifying field at home and abroad was analysed.By pointing out the existing problems at home,we hope could help bridge the research gap and promote its application and development.
引文
[1]《关于推进电能替代的指导意见》(发改能源[2016]1054号)国家发展改革委、国家能源局、财政部、环保部、住房城乡建设部、工业和信息化部、交通运输部、民航局联合印发,2016.5.
[2]Li G,Huang Y,and RadermacherR.Review of cold storage materials for air conditioning application[J].International Journal of Refrigeration,2012,35(8):2053-2077.
[3]杜琳琳.我国新型冰蓄冷空调技术[J].科技传播,2012,4(16):67-69.
[4]Kauffeld M,Wang M J,Goldstein V,et al.Ice slurry applications[J].International journal of refrigeration,2010,33.
[5]StamatiouaE,Meewisseb J W,Kawaji M.Ice slurry generation involving moving parts[J].International Journal of Refrigeration,2005,28(1):60-72
[6]Sugie H,Hamajima M,Sato A.Auger type ice-making machine.US20030079489A1,2003.
[7]Etlender S.Method and device for continuous production of ice-solution suspension.US20040123618A1.2004.
[8]Lim HM.Ice slurrygenerator.W02004046624A1,2004.
[9]Goulet DP,Holec HV,Fink U,et al.Ice slurry machine.W02007091067A2,2007.
[10]Kuroyanagi M2005.Auger type ice making machine.US6971245B2
[11]Menin B,Menchikovsky M,Katz G.Improved components,system and method for fabricating pumpable ice.W02008146274A2,2008.
[12]Lampe JW,Becker LB,Bull D.System and method for producing and determining cooling capacity of two-phase coolants.US2011088413Al,2011.
[13]Ma W,Zhang Z,Wang PZ.Review of Recent Patents on Ice Slurry Generation.Recent Patents on Engineering 2011,5(2):103-112
[14]Mouneer TA,El-MorsiMS,NosierMA and et al.Mahmoud.Heat transfer performance of a newly developed ice slurry generator:A comparative study.Ain Shams Engineering Journal.2010,1(2):147-157
[15]Daitoku T,Utaka Y.An effect of surface properties on detachment of adhered solid to cooling surface for formation of clathrate hydrate slurry[J].Transactions of the Japan Society of Refrigerating and Air Conditioning Engineers,2007,36(8):489-500.
[16]Vaessena R.J.C,Jansea BJ.H,SeckleraM.M and et al.Evaluation of the performance of a newly developed eutectic freeze crystallizer scraped cooled wall crystallizer.Inst Chem Eng Trans IChemE 2003,81(partA):1363-1371.
[17]Pronk P,Infante Ferreira CA,Rodriguez Pascual M,Witkamp GJ.Maximum Temperature Difference Without Ice-Scaling in Scraped Surface Crystallizers During Eutectic Freeze Crystalliza-tion.In:Proceedings of the sixteenth international symposium on industrial crystallization,Dresden;2005:1141-1146.
[18]Qin F,Chen XD,Ramachandra Sh,et al.Heat transfer and power consumption in a scraped-surface heat exchanger while freezing aqueous solutions.Sep PurifTechnol.2006,48:150-158.
[19]饶志明,刘圣春,孙志利,杨旭凯,李叶.刮片式制冰蓄冷性能的实验研究[J].低温与超导,2012,40(7):49-53.
[20]饶志明.刮片式冰浆制取系统的分析与实验研究[D].天津商业大学.2013.
[21]潘帅。流化冰制取设备数据采集系统与设备创新研究[D].浙江海洋学院.2014
[22]宋力钊,刘圣春,饶志明.氯化钠冰浆系统的试验研究[J].流体机械,2013,41(10):65-68.
[2]Li G,Huang Y,and RadermacherR.Review of cold storage materials for air conditioning application[J].International Journal of Refrigeration,2012,35(8):2053-2077.
[3]杜琳琳.我国新型冰蓄冷空调技术[J].科技传播,2012,4(16):67-69.
[4]Kauffeld M,Wang M J,Goldstein V,et al.Ice slurry applications[J].International journal of refrigeration,2010,33.
[5]StamatiouaE,Meewisseb J W,Kawaji M.Ice slurry generation involving moving parts[J].International Journal of Refrigeration,2005,28(1):60-72
[6]Sugie H,Hamajima M,Sato A.Auger type ice-making machine.US20030079489A1,2003.
[7]Etlender S.Method and device for continuous production of ice-solution suspension.US20040123618A1.2004.
[8]Lim HM.Ice slurrygenerator.W02004046624A1,2004.
[9]Goulet DP,Holec HV,Fink U,et al.Ice slurry machine.W02007091067A2,2007.
[10]Kuroyanagi M2005.Auger type ice making machine.US6971245B2
[11]Menin B,Menchikovsky M,Katz G.Improved components,system and method for fabricating pumpable ice.W02008146274A2,2008.
[12]Lampe JW,Becker LB,Bull D.System and method for producing and determining cooling capacity of two-phase coolants.US2011088413Al,2011.
[13]Ma W,Zhang Z,Wang PZ.Review of Recent Patents on Ice Slurry Generation.Recent Patents on Engineering 2011,5(2):103-112
[14]Mouneer TA,El-MorsiMS,NosierMA and et al.Mahmoud.Heat transfer performance of a newly developed ice slurry generator:A comparative study.Ain Shams Engineering Journal.2010,1(2):147-157
[15]Daitoku T,Utaka Y.An effect of surface properties on detachment of adhered solid to cooling surface for formation of clathrate hydrate slurry[J].Transactions of the Japan Society of Refrigerating and Air Conditioning Engineers,2007,36(8):489-500.
[16]Vaessena R.J.C,Jansea BJ.H,SeckleraM.M and et al.Evaluation of the performance of a newly developed eutectic freeze crystallizer scraped cooled wall crystallizer.Inst Chem Eng Trans IChemE 2003,81(partA):1363-1371.
[17]Pronk P,Infante Ferreira CA,Rodriguez Pascual M,Witkamp GJ.Maximum Temperature Difference Without Ice-Scaling in Scraped Surface Crystallizers During Eutectic Freeze Crystalliza-tion.In:Proceedings of the sixteenth international symposium on industrial crystallization,Dresden;2005:1141-1146.
[18]Qin F,Chen XD,Ramachandra Sh,et al.Heat transfer and power consumption in a scraped-surface heat exchanger while freezing aqueous solutions.Sep PurifTechnol.2006,48:150-158.
[19]饶志明,刘圣春,孙志利,杨旭凯,李叶.刮片式制冰蓄冷性能的实验研究[J].低温与超导,2012,40(7):49-53.
[20]饶志明.刮片式冰浆制取系统的分析与实验研究[D].天津商业大学.2013.
[21]潘帅。流化冰制取设备数据采集系统与设备创新研究[D].浙江海洋学院.2014
[22]宋力钊,刘圣春,饶志明.氯化钠冰浆系统的试验研究[J].流体机械,2013,41(10):65-68.