Сузиш бассейнлари катта энергия истеъмол қиладиган бинолардан бўлиб, бассейн қиздириш тизимига қайта тикланадиган энергия манбалари асосидаги энергия қурилмаларини кенг жорий этиш орқали унинг энергия сарфини камайтириш муҳим ҳисобланади. Республикамизда ҳам қайта тикланадиган энергия ресурсларини таҳлил этиб сузиш бассейнларининг электр ва иссиқлик таъминотида қайта тикланадиган энергия манбларидан фойдаланиш иқтисодий жиҳатдан тулиқ самара беради. Ушбу мақолада сузиш бассейнлари энергия баланси ҳамда уларни қиздиришда қайта тикланадиган энергия манбаларидан фойдаланишнинг имкониятлари таҳлил қилинган.
Сузиш бассейнлари катта энергия истеъмол қиладиган бинолардан бўлиб, бассейн қиздириш тизимига қайта тикланадиган энергия манбалари асосидаги энергия қурилмаларини кенг жорий этиш орқали унинг энергия сарфини камайтириш муҳим ҳисобланади. Республикамизда ҳам қайта тикланадиган энергия ресурсларини таҳлил этиб сузиш бассейнларининг электр ва иссиқлик таъминотида қайта тикланадиган энергия манбларидан фойдаланиш иқтисодий жиҳатдан тулиқ самара беради. Ушбу мақолада сузиш бассейнлари энергия баланси ҳамда уларни қиздиришда қайта тикланадиган энергия манбаларидан фойдаланишнинг имкониятлари таҳлил қилинган.
| № | Author name | position | Name of organisation |
|---|---|---|---|
| 1 | Davlonov X.A. | doktorant | QarMII |
| 2 | Elmurodov N.S. | t.f.f.d., dotsent | QarMII |
| № | Name of reference |
|---|---|
| 1 | 1.Szeberényi A. Examining the main areas of environmental awareness, sustainability and clean energy. 261-262. |
| 2 | 2.He Y. et al. A regulatory policy to promote renewable energy consumption in China: Review and future evolutionary path //Renewable Energy. – 2016. – Т. 89. – С. 695-705. |
| 3 | 3.Ўзбекистон Республикаси Президентининг 26.05.2017 йилдаги ПҚ-3012-сон Қарори. |
| 4 | 4.Pérez-Lombard L., Ortiz J., Pout C. A review on buildings energy consumption information //Energy and buildings. – 2008. – Т. 40. – №. 3. – С. 394-398. |
| 5 | Ofidou D. Solar thermal systems for zero energy swimming halls. – 2017. |
| 6 | 6.Zuccari F., Santiangeli A., Orecchini F. Energy analysis of swimming pools for sports activities: cost effective solutions for efficiency improvement //Energy Procedia. – 2017. – Т. 126. – С. 123-130. |
| 7 | 7.Ratajczak K., Szczechowiak E. The Use of a Heat Pump in a Ventilation Unit as an Economical and Ecological Source of Heat for the Ventilation System of an Indoor Swimming Pool Facility //Energies. – 2020. – Т. 13. – №. 24. – С. 6695. |
| 8 | 8.О введении в действие санпин 2.1.2.1188-03. постановление Министерство здравоохранения РФ 30 января 2003 Г. Н 4 (РГ 03-38 2702). |
| 9 | 9.Barbato M. et al. Feasibility study of a geothermal energy system for indoor swimming pool in Campi Flegrei area //Thermal Science and Engineering Progress. – 2018. – Т. 6. – С. 421-425. |
| 10 | 10.Liebersbach, Joanna, et al. "Feasibility of Grey Water Heat Recovery in Indoor Swimming Pools." Energies 14.14 (2021): 4221. |
| 11 | 11.Yuan X. et al. Heating energy-saving potentials in HVAC system of swimming halls: A review //Building and Environment. – 2021. – Т. 205. – С. 108189. |
| 12 | 12.Duverge J. J. et al. Energy and water benchmarks for aquatic centres in Victoria, Australia //Energy and Buildings. – 2018. – Т. 177. – С. 246-256. |
| 13 | 13.Ratajczak K., Szczechowiak E. The Use of a Heat Pump in a Ventilation Unit as an Economical and Ecological Source of Heat for the Ventilation System of an Indoor Swimming Pool Facility //Energies. – 2020. – Т. 13. – №. 24. – С. 6695. |
| 14 | 14.Jordaan M., Narayanan R. A numerical study on various heating options applied to swimming pool for energy saving //Energy procedia. – 2019. – Т. 160. – С. 131-138. |
| 15 | 15.Marinopoulos I. S., Katsifarakis K. L. Optimization of energy and Water Management of swimming pools. A case Study in Thessaloniki, Greece //Procedia environmental sciences. – 2017. – Т. 38. – С. 773-780. |
| 16 | 16.Katsaprakakis D. A. Comparison of swimming pools alternative passive and active heating systems based on renewable energy sources in Southern Europe //Energy. – 2015. – Т. 81. – С. 738-753. |
| 17 | 17.Lam, W.W. Chan, Life cycle energy cost analysis of heat pump application for hotel swimming pools, Energy Conv. Manag. 42 (2001) 1299–1306 |
| 18 | 18.Dannemand, Mark, et al. "Heating of Indoor Swimming Pools by Solar Thermal Collectors in Summerhouse in Denmark." Department of Civil Engineering, Technical University of Denmark, Byg Sagsrapport (2017). |
| 19 | 19.Aboushi, A., & Raed, A. (2015). Heating indoor swimming pool using solar energy with evacuated collectors. In International Conference on Advances in Environment Research (pp. 90-94). |
| 20 | 20.Mahmoudi, Rahim, Mortaza Aliasghary, and Majid Mokarram. "Design and fabrication of an intelligent management and control system to optimize energy consumption in indoor swimming pools." Energy Efficiency 14.6 (2021): 1-12. |
| 21 | 21.JPD Marín, FV García, JRG Cascales (2019). Use of a predictive control to improve the energy efficiency in indoor swimming pools using solar thermal energy. Solar Energy, 179; 380–390. |
| 22 | 22.Mančić, Marko V., Dragoljub S. Živković, Peđa M. Milosavljević, and Milena N. Todorović. "Mathematical modelling and simulation of the thermal performance of a solar heated indoor swimming pool." Thermal Science 18, no. 3 (2014): 999-1010. |