Research Article
Year 2021,
Volume: 8 Issue: 4, 169 - 181, 31.12.2021
Abstract
References
- Kıyılmaz, M. B., 2019, Principles of energy management in industry and investigation of energy efficiency, Master Thesis, Muğla Sıtkı Kocaman University, Institute of Science, Muğla, 2-3.
- Karluk, S. R., 2007, Structural Transformation of the Turkish Economy of the Republic of Turkey Today, Page 239, Beta Bookstore, 11. Printing, ISBN: 9786053331858, İstanbul.
- Gezer, E. S., 2019, Energy efficiency of elevators, Master Thesis, Karabük University, Institute of Science, Karabük, 35-36.
- Kavak, K., 2005, Energy Efficiency in Turkey and the world and Investigation of Turkish Industrial Energy Efficiency, State Planning Organization, Publication No DPT: 2689, Pages 2-40, Ankara.
- Yaşar, N., 2011, Within the context of municipal energy policies efficiency of energy in buildings sample of Isparta, Master Thesis, Süleyman Demirel University, Institute of Social Sciences, Isparta, 9-94.
- Şenol, M. A., 2011, Turkey Evaluation of the Potential Energy Efficiency, Ministry of Energy and Natural Resources, 2nd National Energy Efficiency Forum, Ankara, Turkey.
- Tuncer, T., 2012, Energy efficiency in buildings and according to degree day regions of determination of optimum insulation thickness with different materials, Master Thesis, Dokuz Eylül University, Institute of Science, İzmir, 13-14.
- Aksüzek, Y., 2003, Energy productivity and energy economy in complexs building, Master Thesis, Süleyman Demirel University, Institute of Science, Isparta, 1-3.
- Ascione, F., Bianco, N., Mauro, G.M. and Napolitano, D.F., 2019, Building envelope design: multi-objective optimization to minimize energy consumption, global cost and thermal discomfort. Application to different Italian climatic zones, Energy, Volume 174, Pages 359–374.
- Belussi, L., Barozzi, B., Bellazzi, A., Danza, L., Devitofrancesco, A., Fanciulli, C., Scamoni, F., 2019, A review of performance of zero energy buildings and energy efficiency solutions, Journal of Building Engineering, Volume 25, 100772.
- Nazi, W.I.W.M., Royapoor, M., Wang,Y. and Roskilly, A.P., 2017, Office Building Cooling Load Reduction Using Thermal Analysis Method – A Case Study. Applied Energy, Volume 185, Part 2, Pages 1574–1584.
- Cheung H., Langner M.R. and Braun J.E., 2020, “Methodology to assess “no-touch” building audit software using simulated utility data” Science and Technology for the Built Environment, Doi Number: 10.1080/23744731.2020.1732160, pp.1-15.
- Hwang D.K., Cho J. and Moon J., 2019, “Feasibility study on energy audit and data driven analysis procedure for building energy efficiency: bench-marking in Korean hospital buildings”, Energies, 12, 3006, Doi number: 10.3390/en12153006.
- Balan K.N. and Yashvanth U., 2020, “Energy audit in residential building – replacement of portable air conditioner by an energy efficient centralized air conditioner”, International Journal of Ambient Energy, 41:2, 179-182.
- Fluke, 2009, Fluke Thermal Imager, PN 3433221, July 2009, Rev.1,5/11, USA.
- Chauvin Arnoux, 2013, Three-Phase Electrical Networks Analyser, Code 694286A02 France.
- Madur, 2019, Portable Gas Analyser GA-21 Plus, Zgierz/ Poland.
- Testo, 2017, Differential Pressure Measuring Device, https://www.testo.com/tr-TR/testo-510-set/p/0563-0510, Germany.
Year 2021,
Volume: 8 Issue: 4, 169 - 181, 31.12.2021
Abstract
In our study, a detailed energy study was carried out in a hotel business, which is a commercial building, energy saving potential was determined, measures that could be taken to increase energy efficiency and reduce energy consumption costs were determined and recommendations were presented. As a result of the measurements of the hot water installation line with the thermal camera, heat losses in the valves and flanges were observed and insulation was recommended. When the investment determined for insulation is made, it is calculated that there will be a decrease of approximately 17% in the annual energy consumption for the water installation. After heating, booster and fire pump motors with efficiency class EFF2 were replaced with IE4 efficiency motors, it is seen there is a 6.9% increase in motor efficiency. As a result of replacing the IE1 class engine used in the cooling system with an IE4 class engine, the engine efficiency is expected to increase by 6.2%. As a result of the replacement of halogen bulbs in the business with LED luminaires, the annual total electricity savings were calculated as approximately 19158.12 kW/year.
References
- Kıyılmaz, M. B., 2019, Principles of energy management in industry and investigation of energy efficiency, Master Thesis, Muğla Sıtkı Kocaman University, Institute of Science, Muğla, 2-3.
- Karluk, S. R., 2007, Structural Transformation of the Turkish Economy of the Republic of Turkey Today, Page 239, Beta Bookstore, 11. Printing, ISBN: 9786053331858, İstanbul.
- Gezer, E. S., 2019, Energy efficiency of elevators, Master Thesis, Karabük University, Institute of Science, Karabük, 35-36.
- Kavak, K., 2005, Energy Efficiency in Turkey and the world and Investigation of Turkish Industrial Energy Efficiency, State Planning Organization, Publication No DPT: 2689, Pages 2-40, Ankara.
- Yaşar, N., 2011, Within the context of municipal energy policies efficiency of energy in buildings sample of Isparta, Master Thesis, Süleyman Demirel University, Institute of Social Sciences, Isparta, 9-94.
- Şenol, M. A., 2011, Turkey Evaluation of the Potential Energy Efficiency, Ministry of Energy and Natural Resources, 2nd National Energy Efficiency Forum, Ankara, Turkey.
- Tuncer, T., 2012, Energy efficiency in buildings and according to degree day regions of determination of optimum insulation thickness with different materials, Master Thesis, Dokuz Eylül University, Institute of Science, İzmir, 13-14.
- Aksüzek, Y., 2003, Energy productivity and energy economy in complexs building, Master Thesis, Süleyman Demirel University, Institute of Science, Isparta, 1-3.
- Ascione, F., Bianco, N., Mauro, G.M. and Napolitano, D.F., 2019, Building envelope design: multi-objective optimization to minimize energy consumption, global cost and thermal discomfort. Application to different Italian climatic zones, Energy, Volume 174, Pages 359–374.
- Belussi, L., Barozzi, B., Bellazzi, A., Danza, L., Devitofrancesco, A., Fanciulli, C., Scamoni, F., 2019, A review of performance of zero energy buildings and energy efficiency solutions, Journal of Building Engineering, Volume 25, 100772.
- Nazi, W.I.W.M., Royapoor, M., Wang,Y. and Roskilly, A.P., 2017, Office Building Cooling Load Reduction Using Thermal Analysis Method – A Case Study. Applied Energy, Volume 185, Part 2, Pages 1574–1584.
- Cheung H., Langner M.R. and Braun J.E., 2020, “Methodology to assess “no-touch” building audit software using simulated utility data” Science and Technology for the Built Environment, Doi Number: 10.1080/23744731.2020.1732160, pp.1-15.
- Hwang D.K., Cho J. and Moon J., 2019, “Feasibility study on energy audit and data driven analysis procedure for building energy efficiency: bench-marking in Korean hospital buildings”, Energies, 12, 3006, Doi number: 10.3390/en12153006.
- Balan K.N. and Yashvanth U., 2020, “Energy audit in residential building – replacement of portable air conditioner by an energy efficient centralized air conditioner”, International Journal of Ambient Energy, 41:2, 179-182.
- Fluke, 2009, Fluke Thermal Imager, PN 3433221, July 2009, Rev.1,5/11, USA.
- Chauvin Arnoux, 2013, Three-Phase Electrical Networks Analyser, Code 694286A02 France.
- Madur, 2019, Portable Gas Analyser GA-21 Plus, Zgierz/ Poland.
- Testo, 2017, Differential Pressure Measuring Device, https://www.testo.com/tr-TR/testo-510-set/p/0563-0510, Germany.
There are 18 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Mechanical Engineering |
| Journal Section | Research Article |
| Authors | |
| Publication Date | December 31, 2021 |
| Submission Date | July 8, 2021 |
| Acceptance Date | October 27, 2021 |
| Published in Issue | Year 2021 Volume: 8 Issue: 4 |
