|Table of Contents|

Research Status and Prospect of Self-Service Refrigeration Cabinet(PDF)

南京师范大学学报(工程技术版)[ISSN:1006-6977/CN:61-1281/TN]

Issue:
2017年03期
Page:
44-
Research Field:
热能工程
Publishing date:

Info

Title:
Research Status and Prospect of Self-Service Refrigeration Cabinet
Author(s):
Xu Guanyi12Yao Yuchen12Zhang Zhongbin12Huang Hu12Wang Qing3Li Feng3
(1.Engineering Laboratory of Energy System Conversion and Emission Reduction of Jiangsu Province,Nanjing Normal University,Nanjing 210042,China)(2.School of Energy and Mechanical Engineering,Nanjing Normal University,Nanjing 210042,China)(3.Jiangsu Beiyang Cold-chain Equipment Technology Co.,Ltd,Taizhou 225300,China)
Keywords:
self-service refrigeration cabinetrefrigeration technologyenergy efficiencyinternet of things
PACS:
TB657
DOI:
10.3969/j.issn.1672-1292.2017.03.007
Abstract:
This paper considers the development of logistics distribution system and self-service refrigeration cabinet system,and reviews on the latest progress in its application and promotion at home and abroad. With the research on the development of self-service refrigeration cabinet,the current major bottleneck and deficiency in this field are analyzed. Focus of the analysis is put on the optimization of refrigeration technology,intelligent interconnection of the internet of things,internal temperature,humidity and air flow distribution,as well as the system efficiency improvement. Thereafter,directions of further investigation are discussed on the basis of a comprehensive literature research and recent development.

References:

[1] LAGUERRE O,HOANG M H,FLICK D. Heat transfer modelling in a refrigerated display cabinet:the influence of operating conditions[J]. Journal of food engineering,2012,108(2):353-364.
[2]陈骏,谢地. 智能快递自提系统设计[J]. 机械设计,2014,31(8):111-114.
CHEN J,XIE D. Design on intelligent express self-service system[J]. Journal of machine design,2014,31(8):111-114.(in Chinese)
[3]中国产业信息网. 2016年中国生鲜电商行业市场现状及发展趋势分析[R/OL]. [2017-04-15]http://www.chyxx.com/industry/201602/390021.html.
CHINA INDUSTRY INFORMATION NETWORK. An analysis of the current situation and development trend of China’s fresh products e-commerce in 2016[R/OL]. [2017-04-15]http://www.chyxx.com/industry/201602/390021.html.(in Chinese)
[4]冯斌. 智能快件箱布局规划与运营模式研究[D]. 北京:北京交通大学,2015.
FENG B. Study on smart express box layout planning and operation mode[D]. Beijing:Beijing Jiaotong University,2015.(in Chinese)
[5]中华人民共和国国家邮政局. 国家邮政局关于2014年快递服务满意度调查结果的通告[EB/OL]. [2017-04-10]
http://www.spb.gov.cn./xw/dtxx_15079/201501/t20150126_414192.html.STATE POST BUREAU OF THE PEOPLE’S REPUBLIC OF CHINA. The State Post Bureau on the Survey of the Express Service Satisfaction in 2014[EB/OL]. [2017-04-10] http://www.spb.gov.cn./xw/dtxx_15079/201501/t20150126_414192.html.(in Chinese)
[6]赵昕,朱建. 快递自提箱建设初探[J]. 物流技术,2013(18):33-35.
ZHAO X,ZHU J. A preliminary study on the construction of express[J]. Logistics technology(equipment),2013(18):33-35.(in Chinese)
[7]中国产业信息网. 2015年中国自提柜行业总体发展规模概况分析及市场展望[R/OL]. [2017-04-15]http://www.chyxx.com/industry/201510/352504.html.
CHINA INDUSTRY INFORMATION NETWORK. The overall development scale and market prospects of China’s self-service cabinet industry in 2015[R/OL]. [2017-04-15]http://www.chyxx.com/industry/201510/352504.html.(in Chinese)
[8]中国标准化研究院. 家用电冰箱耗电量限定值及能效等级:GB 12021.2-2015[S]. 北京:中国标准出版社,2015.
CHINA NATIONAL INSTITUTE OF STANDARDIZATION. The maximum allowable values of the energy consumption and energy efficiency grade for household refrigerators:GB 12021.2-2015[S]. Beijing:Standards Press of China,2015.(in Chinese)
[9]BELMAN F J M,GALLEGOS M A. Analysis of the flow and temperature distribution inside the compartment of a small refrigerator[J]. Applied thermal engineering,2016(8):743-752.
[10]LACERDA V T,MELO C,BARBOSA JR J R,et al. Measurements of the air flow field in the freezer compartment of a top-mount no-frost refrigerator:the effect of temperature[J]. International journal of refrigeration,2005,28(5):774-783.
[11]DING G L,QIAO H T,LU Z L. Ways to improve thermal uniformity inside a refrigerator[J]. International journal of refrigeration,2005,24(13):1 827-1 840.
[12]姜申. 基于物联网的智能电冰箱信息化设计[J]. 物联网技术,2011,1(8):36-40.
JIANG S. Intelligent refrigerator information design based on the Internet of things[J]. The Internet of things technology,2011,1(8):36-40.(in Chinese)
[13]肖杨,刘小朋. 商用冷柜能效标准及节能技术分析与研究[J]. 冷藏技术,2015(4):8-12.
XIAO Y,LIU X P. Analysis and research on energy efficiency standard and energy saving technology of commercial refrigerator[J]. Cold storage technology,2015(4):8-12.(in Chinese)
[14]李恒国,户建波. 冷柜门体与箱体配合间隙对能耗的影响[J]. 制冷技术,2013(4):60-62.
LI H G,HU J B.The influence of the clearance between the refrigerator door and the box body on energy consumption[J]. Refrigeration technology,2013(4):60-62.(in Chinese)
[15]李成祥. 某冷藏箱内温度场和湿度场的数值模拟[D]. 青岛:青岛大学,2015.
LI C X. Numerical simulation of temperature field and humidity field in a refrigerated box[D]. Qingdao:Qingdao University,2015.(in Chinese)
[16]CEZAR O R N,CHRISTIAN J L H. Energy and cost savings in household refrigerating appliances:a simulation-based design approach[J. Applied energy,2011,88:3 051-3 060.
[17]SMALE N J,MOUREH J,CORTELLA G. A review of numerical models of airflow in refrigerated food applications[J]. International journal of refrigeration,2006,29:911-930.
[18]曹雷,邹建煌,刘中杰. 基于CFD模拟分析的风机风道优化设计[J]. 制冷技术,2014(5):62-66.
CAO L,ZOU J H,LIU Z J. Optimal design of fan duct based on CFD simulation analysis[J]. Refrigeration technology,2014(5):62-66.(in Chinese)
[19]白莉. CFD在冰箱结构优化中的应用现状[J]. 企业技术开发,2014(15):62-64.
BAI L. Application status of CFD in refrigerator structure optimization[J]. Enterprise technology development,2014(15):62-64.(in Chinese)
[20]李刚,张凤林. 电冰箱能耗与制冷系统优化设计及制冷循环分析[J]. 节能技术,2004(5):3-6.
LI G,ZHANG F L. The refrigeration and refrigeration system optimization design and refrigeration cycle analysis[J]. Energy saving technology,2004(5):3-6.(in Chinese)

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Last Update: 2017-09-30