TECHNO-ECONOMIC EVALUATION OF A PHOTOVOLTAIC SYSTEM FOR INDUSTRIAL FACILITY: A CASE STUDY IN EDIRNE, TURKEY
Abstract
System solutions such as the use of renewable energy are used as energy management applications to implement the necessary measures to eliminate energy waste, losses, and inefficiencies in industrial facilities, to meet the needs of heating, cooling, ventilation, electricity, hot water, and lighting energy completely or partially. In this study, it is planned to obtain some of the electrical energy consumed as an energy efficiency increasing application in the industrial facility located in Edirne, from solar energy, which is a renewable energy source. With the 910 kW Photovoltaic (PV) system planned to be installed in the industrial facility, it is aimed to obtain approximately 20% of the electricity need of the facility with solar energy. Thus, because of the use of renewable energy in electricity production, 543.7 tCO2 greenhouse gas emissions will be reduced, equivalent to 99.6 unused cars and pickup trucks per year. With the PV system installation, 1,183.0 MWh/year (101.737 TOE/year) energy savings and 318,376.66 $/year cost savings will be achieved. The payback period of the system is 2.7 years.
Project Number
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References
- Andrews, R., Johnson, E., (2016). Energy use. behavioural change. and business organizations: reviewing recent findings and proposing a future research agenda. Energy Res. Social Sci., 11, 195-208. https://doi.org/10.1016/j.erss.2015.09.001.
- Backlund, S., Broberg, S., Ottosson, M., Thollander, P., (2012). Energy efficiency potentials and energy management practices in Swedish firms (5-055-12), ECEEE Ind. Summer Study, 669–677.
- Chang, S., Cho, J., Heo, J., Kang, J., Kobashi. T., (2022). Energy infrastructure transitions with PV and EV combined systems using techno-economic analyses for decarbonization in cities. Applied Energy, 319, 119254.
- Cheng, H., Hu, X., Zhou, R., (2019). How firms select environmental behaviours in China: the framework of environmental motivations and performance. J. Clean. Off. Prod., 208(20), 132-141. https://doi.org/10.1016/j.jclepro.2018.09.096.
- Clean Energy Project Analysis, 2005. Third Edition RETScreen Engineering & Cases Textbook. RETScreen International Clean Energy Decision Support Centre. Canada.
- Farangi, M., Asl Soleimani, E., Zahedifar, M., Amiri, O., Poursafar, J., (2020). The environmental and economic analysis of grid-connected photovoltaic power systems with silicon solar panels. in accord with the new energy policy in Iran. Energy, 202,117771. http://dx.doi.org/10.1016/j.energy.2020.117771.
- Karlsson, M., Gebremedhin, A., Klugman, S., Henning, D., Moshfegh, B., (2009). Regional energy system optimization – potential for a regional heat market. Appl Energy, 86(4), 441–451.
ENDÜSTRİYEL TESİS İÇİN BİR PV SİSTEMİNİN TEKNO-EKONOMİK DEĞERLENDİRMESİ: TÜRKİYE-EDİRNE'DE BİR VAKA ÇALIŞMASI
Abstract
Endüstriyel tesislerde enerji israfı, kayıpları ve verimsizliklerin giderilmesi için gerekli önlemlerin uygulanması, ısıtma, soğutma, havalandırma, elektrik, sıcak su ve aydınlatma enerjisi ihtiyaçlarının tamamen veya kısmen karşılanması için yenilenebilir enerji kullanımı gibi sistem çözümleri enerji yönetimi uygulamaları olarak kullanılmaktadır. Bu çalışmada, Edirne'de bulunan sanayi tesisinde enerji verimliliğini artırıcı bir uygulama olarak tüketilen elektrik enerjisinin bir kısmının yenilenebilir bir enerji kaynağı olan güneş enerjisinden elde edilmesi planlanmıştır. Sanayi tesisine kurulması planlanan 910 kW Fotovoltaik (PV) sistem ile tesisin elektrik ihtiyacının yaklaşık %20'sinin güneş enerjisi ile elde edilmesi hedeflenmektedir. Böylece elektrik enerjisi üretiminde yenilenebilir enerji kullanımı sayesinde yılda 99,6 adet kullanılmayan otomobil ve kamyonete eşdeğer 543,7 tCO2 sera gazı salımı azaltılmış olacak. PV sistem kurulumu ile 1.183,0 MWh/yıl (101,737 TEP/yıl) enerji tasarrufu ve 318.376,66 $/yıl maliyet tasarrufu sağlanacaktır. Sistemin geri ödeme süresi 2,7 yıldır.
Project Number
-
References
- Andrews, R., Johnson, E., (2016). Energy use. behavioural change. and business organizations: reviewing recent findings and proposing a future research agenda. Energy Res. Social Sci., 11, 195-208. https://doi.org/10.1016/j.erss.2015.09.001.
- Backlund, S., Broberg, S., Ottosson, M., Thollander, P., (2012). Energy efficiency potentials and energy management practices in Swedish firms (5-055-12), ECEEE Ind. Summer Study, 669–677.
- Chang, S., Cho, J., Heo, J., Kang, J., Kobashi. T., (2022). Energy infrastructure transitions with PV and EV combined systems using techno-economic analyses for decarbonization in cities. Applied Energy, 319, 119254.
- Cheng, H., Hu, X., Zhou, R., (2019). How firms select environmental behaviours in China: the framework of environmental motivations and performance. J. Clean. Off. Prod., 208(20), 132-141. https://doi.org/10.1016/j.jclepro.2018.09.096.
- Clean Energy Project Analysis, 2005. Third Edition RETScreen Engineering & Cases Textbook. RETScreen International Clean Energy Decision Support Centre. Canada.
- Farangi, M., Asl Soleimani, E., Zahedifar, M., Amiri, O., Poursafar, J., (2020). The environmental and economic analysis of grid-connected photovoltaic power systems with silicon solar panels. in accord with the new energy policy in Iran. Energy, 202,117771. http://dx.doi.org/10.1016/j.energy.2020.117771.
- Karlsson, M., Gebremedhin, A., Klugman, S., Henning, D., Moshfegh, B., (2009). Regional energy system optimization – potential for a regional heat market. Appl Energy, 86(4), 441–451.
Details
| Primary Language | English |
|---|---|
| Subjects | Energy Generation, Conversion and Storage (Excl. Chemical and Electrical) |
| Journal Section | Research Article |
| Authors | |
| Project Number | - |
| Publication Date | December 30, 2024 |
| Submission Date | December 4, 2024 |
| Acceptance Date | December 23, 2024 |
| Published in Issue | Year 2024 Volume: 25 Issue: 2 |
