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On the Use of Nanofluids in Solar Energy Applications 纳米流体在太阳能应用中的应用
Authors: CUCE Erdem,CUCE Pinar Mert,GUCLU Tamer et al.
Keywords:nanofluids, solar energy applications, thermal and electrical performance, COP, cost
Volume 29, Issue 3: 513-534, 2020 | PDF
Published: May 5, 2020
Special Issue for Building Energy Conservation and Renewable Energy Integration建筑节能及可再生能源建筑一体化专刊
Authors: LIU Zhijian,LI Hongqiang,LI Guiqiang
Institution:North China Electric Power University, Baoding, China
Volume 28, Issue 6: 1103, 2019 | PDF
Published: Nov. 5, 2019
Abstract: With the development of society and the improvement of people’s living standards, the thermal comfort requirement of indoor environment is increasing, which leads to more and more energy consumptio...
Scientometric of Nearly Zero Energy Building Research: A Systematic Review from the Perspective of Co-Citation Analysis;近零能耗建筑的科学计量分析:基于共引视角的系统回顾
Authors: WANG Mengmeng1,3*,LIU Xiaojun1,FU Hanliang1,3 et al.
Institution:School of Management, Xi’an University of Architecture and Technology, Xi’an 710055, China
Keywords:nearly zero energy building (nZEB), scientometric, co-citation, CiteSpace
Volume 28, Issue 6: 1101-1114, 2019 | PDF
Published: Nov. 5, 2019
Abstract: As an important building type to diminish energy use and greenhouse gas emissions in the construction industry, nearly zero energy building (nZEB) has attracted much attention from many scholars, w...
Optimizing Building Envelope Dimensions for Passive Solar Houses in the Qinghai-Tibetan Region: Window to Wall Ratio and Depth of Sunspace;青藏高原地区被动式太阳能房建筑围护结构尺寸优化:窗-墙比和阳光间进深
Authors: LIU Zhijian1,*,WU Di1,,LI Junyang1 et al.
Institution:Department of Power Engineering, North China Electric Power University, Baoding, Hebei 071003, China
Keywords:passive solar house, indoor thermal comfort, sunspace depth, WWR (window to wall ratio), PPD (Predicted Percent Dissatisfied)
Volume 28, Issue 6: 1115-1128, 2019 | PDF
Published: Nov. 5, 2019
Abstract: It has been a focus to reduce the energy consumption and improve the space heating performance of high-altitude buildings in winter seasons. In view of the abundant solar energy resources of the hi...
Assessment of Building External Wall Thermal Performance Based on Temperature Deviation Impact Factor under Discontinuous Radiant Heating;非连续辐射供暖条件下基于温度偏离影响因子的建筑外墙热工性能评价
Authors: YANG Jie1, WANG Jun1*, XIONG Feng1 et al.
Institution:College of Architecture and Environment, Sichuan University, Chengdu 610065, China
Keywords:temperature deviation impact factor, building external wall, thermal performance, discontinuous radiant heating
Volume 28, Issue 6: 1129-1140, 2019 | PDF
Published: Nov. 5, 2019
Abstract: As the variation and timely meeting thermal environment requirement of indoor air temperature has a close relationship with the thermal performance of building external wall under discontinuous rad...
A Comprehensive Evaluation on Energy, Economic and Environmental Performance of the Trombe Wall during the Heating Season;供暖工况下特朗勃墙能源、经济和环境性能的综合评估
Authors: ZHANG Hongliang, SHU Haiwen*
Institution:School of Civil Engineering, Dalian University of Technology, Dalian 116024, China
Keywords:Trombe wall, energy evaluation, economic evaluation, environmental evaluation, heating load
Volume 28, Issue 6: 1141-1149, 2019 | PDF
Published: Nov. 5, 2019
Abstract: Trombe wall is a passive building energy saving technology that uses solar energy to reduce buildings’ heating load and adjust indoor thermal environment. In recent years, much research has been do...
Research on Landscape Energy-Saving Integrated Water Curtain System;景观节能一体化水幕系统研究
Authors: GUO Pengxin1, LI Hongqiang2,4,5*, HE Changjie1 et al.
Institution:3rd Construction Co., Ltd of China Construction Fifth Engineering, Changsha 410004, China
Keywords:glass curtain wall, integration of landscape and energy-saving, water curtain sunshade, evaporative cooling, natural resources
Volume 28, Issue 6: 1150-1163, 2019 | PDF
Published: Nov. 5, 2019
Abstract: Aiming at the serious heat and cold loss of the building glass curtain wall in the field of amusement and tourism, and the need to meet the landscape requirements of the building facade, this paper...
Path Analysis of Energy-Saving Technology in Yangtze River Basin Based on Multi-Objective and Multi-Parameter Optimisation;基于多目标多参数优化模型的长江流域节能技术路径研究
Authors: MENG Xiangzhong1, YU Wei1,2*, ZHENG Chuyu1 et al.
Institution:Joint International Laboratory of Green Buildings and Built Environments, Ministry of Education, Chongqing University, Chongqing 400045, China
Keywords:Yangtze River Basin, energy consumption, multi-objective and multi-parameter optimisation passive design, energy-saving technology path
Volume 28, Issue 6: 1164-1175, 2019 | PDF
Published: Nov. 5, 2019
Abstract: The Yangtze River Basin in China is characterised by hot- and cold-humid climates in summer and winter, respectively. Thus, increased demand for heating and cooling energy according to the season, ...
Thermal Analysis of a Volumetric Solar Receiver;太阳能容积式吸热器热分析
Authors: CHEN Longfei1,2,3,5,7, YANG Ming2,3,4,5,6,7, LI Jinping1 et al.
Institution:Lanzhou University of Technology, Lanzhou 730050, China
Keywords:solar receiver, solid-liquid composite absorber, silicon carbide porous ceramic, volumetric solar collector
Volume 28, Issue 6: 1176-1185, 2019 | PDF
Published: Nov. 5, 2019
Abstract: The volumetric receiver has received wide attention due to its high thermal efficiency. This paper studied a new type of a solid-liquid composite volumetric receiver. The heat transfer in a solid-l...
Research on Photovoltaic Performance Reduction due to Dust Deposition: Modelling and Experimental Approach;灰尘沉积对光伏性能的影响研究:建模与实验方法
Authors: CHEN Yingya1,2, WANG Dengjia1,2,*, LIU Yanfeng1,2 et al.
Institution:State Key Laboratory of Green Building in Western China, Xi’an University of Architecture and Technology, Xi’an 710055, China
Keywords:photovoltaic technology, dust deposition, conversion efficiency, fill factor
Volume 28, Issue 6: 1186-1194, 2019 | PDF
Published: Nov. 5, 2019
Abstract: Photovoltaic (PV) power generation technology is the main renewable energy utilization technology. However, dust deposition severely affects the PV power generation efficiency and decreases the pro...