Thermal Environmental Monitoring of Apartment Building in Saudi Arabia

Naif Sultan Alaboud

doi:10.4028/p-eLOLz6

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HomeAdvances in Science and TechnologyAdvances in Science and Technology Vol. 137Thermal Environmental Monitoring of Apartment...

Thermal Environmental Monitoring of Apartment Building in Saudi Arabia

Abstract:

The overconsumption of finite energy resources by the residential sector, especially during the summer season in Saudi Arabia, is due to an almost insatiable need for air conditioning to reduce heat. Cheap electricity prices also contribute to high consumption in apartment buildings. At least 50% of electricity consumption is used in households, where air conditioners consume about three-quarters of total usage. This study will evaluate the thermal performance of low-rise residential buildings in Makkah, Saudi Arabia. The selected building, newly built in 2020, has three floors. To explore the internal thermal performance of the selected apartment, readings were taken in June 2021. Data collected included indoor air temperature values recorded every fifteen minutes., over a one-week period, in two parts of the case study building. In addition, point measurements of specific environment variables were performed at selected time points. On-site readings have been tabulated and analyzed, and the results provide a more accurate measurement of the fabric and design performance of existing buildings, particularly the side walls, floors and ceilings. outside, to evaluate internal thermal performance. The results illustrate the effectiveness of existing building structures used in the case study building. Also, this study concluded that indoor surface temperatures were up to 6.5 °C higher than indoor air temperatures, despite having thermal insulation on external surfaces.

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Periodical:

Advances in Science and Technology (Volume 137)

Pages:

41-46

DOI:

https://doi.org/10.4028/p-eLOLz6

Citation:

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Online since:

January 2024

Authors:

Naif Sultan Alaboud*

Keywords:

Environmental Evaluation, Hot Climate, Physical Measurement, Residential Building, Thermal Performance

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* - Corresponding Author

References

[1] SEEC, 2021. Saudi energy efficiency center. Saudi energy Effic. Cent. URL https://www.seec.gov.sa/en/(accessed 7.6.21).

Google Scholar

[2] WERA, 2020. Activities Report. URL https://www.ecra.gov.sa/ar-sa/MediaCenter/DocLib2 /Pages/SubCategoryList.aspx?categoryID=4

Google Scholar

[3] Nicol, F., Humphreys, M., Roaf, S., 2012. Adaptive Thermal Comfort: Principles and Practice , First edition. ed. Routledge.

DOI: 10.4324/9780203123010

Google Scholar

[4] SBC, 2021. Saudi Energy Conservation Code – Low-Rise (Residential) Buildings (SBC 602).

Google Scholar

[5] Alaboud, M., Gadi, M., 2019. Indoor environmental monitoring of residential buildings in Saudi Arabia, Makkah: A case study, in: IOP Conference Series: Materials Science and Engineering

DOI: 10.1088/1757-899X/609/4/042044

Google Scholar

[6] Alaboud, M., Gadi, M., 2020. The effect of thermal insulation on cooling load in residential buildings in Makkah, Saudi Arabia. Futur. Cities Environ. 6, 4

DOI: 10.5334/fce.87

Google Scholar

[7] Nayebare, S.R., Aburizaiza, O.S., Siddique, A., Carpenter, D.O., Hussain, M.M., Zeb, J., Aburiziza, A.J., Khwaja, H.A., 2018. Ambient air quality in the holy city of Makkah: A source apportionment with elemental enrichment factors (EFs) and factor analysis (PMF). Environ. Pollut. 243, 1791–1801

DOI: 10.1016/j.envpol.2018.09.086

Google Scholar

[8] Elitech, 2015. Elitech USB Temperature Data logger RC-5. Elit. . URL https://www.elitech.uk.com/temperature_logger/Elitech_USB_Temperature_Data_logger_RC_5_147.html (accessed 08.06.21).

DOI: 10.7717/peerj.7580/supp-1

Google Scholar

[9] Anggo, 2020. ANGGO Infrared Thermometer, Non-contact Digital Laser Temperature Gun -58℉~788℉(-50℃~420℃) for Cooking/Air/Refrigerator/Pet: Kitchen & Dining. Amazon. URL https://www.amazon.com/ANGGO-Thermometer-Non-contact-Temperature- Refrigerator/dp/B01EI2BSEW/ref=pd_ybh_a_2?_encoding=UTF8&psc=1&refRID=SVE2QGB5WDM7QJSJ1XE3 (accessed 09.06.21).

Google Scholar

[10] Extech, 2019. HT30: Heat Stress WBGT (Wet Bulb Globe Temperature) Meter. Extech Instruments. URL http://www.extech.com/products/HT30 (accessed 08.06.21).

Google Scholar

[11] World weather online, 2021. Makkah Historical Weather. world Weather online. URL https://www.worldweatheronline.com/makkah-weather-history/makkah/sa.aspx (accessed 16.06.21).

Google Scholar