Energy audit and evaluation of indoor environment condition inside Assiut International Airport terminal building, Egypt

被引:15
作者
Abdallah, Amr Sayed Hassan [1 ]
Makram, Ahmed [2 ]
Nayel, Mohamed Abdel-Azim [3 ]
机构
[1] Assiut Univ, Fac Engn, Architectural Engn Dept, Assiut 71515, Egypt
[2] Assuit Int Airport, Assiut, Egypt
[3] Assiut Univ, Fac Engn, Elect Engn Dept, Assiut 71518, Egypt
关键词
Indoor environment; Terminal building; Thermal comfort; Electrical energy consumption; Thermal image; Illuminance; CONSUMPTION; QUALITY;
D O I
10.1016/j.asej.2021.03.003
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Large space buildings, such as airport terminal buildings, consume high energy due to the cooling demand; especially in hot arid climates; to achieve passenger thermal comfort. Evaluation of thermal environment and energy analysis inside airports is an important issue, in terms of reducing energy and controlling indoor environments. This work aims to analyze electrical energy consumption and the indoor environment of the terminal building at Assiut International Airport, Egypt as a case study. Indoor environmental conditions, and energy consumption with HVAC systems, were monitored inside five multiple functional zones within the terminal building (Departure hall, Public area, Duty-free hall, Gate, and Arrival hall) during summer (August 2017). The indoor environmental parameters monitored include: temperature, relative humidity, and illuminance. The results indicate the HVAC system consumed the largest portion (70%) of the overall building electricity demand, and the Energy Use Intensity (EUI) of ATZ terminal building is 300 kWh/m(2)/year. Also, indoor temperatures were found to be within the acceptable range of comfort, with a high energy consumption of 6,000,000 kWh for the year 2017. A significant reduction of monthly energy consumption was achieved based on increasing HVAC set temperature from 25 degrees C to 27 degrees C; a reduction equal to 24.5% of total energy consumption during the hot months. The results of this study help search for sustainable solutions for reducing energy consumption and improving passenger thermal comfort inside the terminal building (phase 2). (C) 2021 THE AUTHORS. Published by Elsevier BV on behalf of Faculty of Engineering, Ain Shams University.
引用
收藏
页码:3241 / 3253
页数:13
相关论文
共 29 条
[1]  
ACRP, 2010, ACRP SYNTH 21
[2]   An analysis on energy performance indicator and GWP at Airports; a case study [J].
Akyuz, Mehmet Kadri ;
Kafali, Hasim ;
Altuntas, Onder .
ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 2021, 43 (19) :2402-2418
[3]   Economic and Environmental Optimization of an Airport Terminal Building's Wall and Roof Insulation [J].
Akyuz, Mehmet Kadri ;
Altuntas, Onder ;
Sogut, Mehmet Ziya .
SUSTAINABILITY, 2017, 9 (10)
[4]  
[Anonymous], 2004, 65 ANSI ASHRAE
[5]  
Babu AD, 2008, PLEA 25 C PASS LOW E
[6]  
Baxter G, 2018, INT J TRAFFIC TRANSP, V8, P07, DOI [10.7708/ijtte.2018.8, DOI 10.7708/IJTTE.2018.8]
[7]   An Assessment of Airport Sustainability, Part 2-Energy Management at Copenhagen Airport [J].
Baxter, Glenn ;
Srisaeng, Panarat ;
Wild, Graham .
RESOURCES-BASEL, 2018, 7 (02)
[8]   Environmentally sustainable practices at UK airports [J].
Budd, Thomas ;
Budd, Lucy ;
Ison, Stephen .
PROCEEDINGS OF THE INSTITUTION OF CIVIL ENGINEERS-TRANSPORT, 2015, 168 (02) :116-123
[9]   Investigation on the thermal comfort and energy efficiency of stratified air distribution systems [J].
Cheng, Yuanda ;
Niu, Jianlei ;
Du, Zhenyu ;
Lei, Yonggang .
ENERGY FOR SUSTAINABLE DEVELOPMENT, 2015, 28 :1-9
[10]  
Holder LM, 2002, P 13 S IMPR BUILD SY