Application of an alternative energy source in the form of solar radiation and carbon-based fuel flexible material for the heating of mobile farm housing
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Abdelkader, T. K., Salem, A. E., Zhang, Y., Gaballah, E. S., Makram, S. O. and Fan, Q. 2021. Energy and exergy analysis of carbon nanotubes-based solar dryer. Journal of Energy Storage 39: 102623.AbdelkaderT. K.SalemA. E.ZhangY.GaballahE. S.MakramS. O.FanQ.2021Energy and exergy analysis of carbon nanotubes-based solar dryerJournal of Energy Storage3910262310.1016/j.est.2021.102623Search in Google Scholar
Active Solar Heating. [Electronic resource]. 2020. Available at: https://www.energy.gov/energysaver/home-heating-systems/active-solar-heating (accessed July 26, 2021). [in USA].Active Solar Heating[Electronic resource]2020Available at:https://www.energy.gov/energysaver/home-heating-systems/active-solar-heating (accessed July 26, 2021). [in USA]Search in Google Scholar
Al-Smairan, M., Shawaqfah, M. and Almomani, F. 2021. Techno-economic investigation of an integrated boiler–solar water heating/cooling system: a case study. Energies 14(Release 1): 1–18; 1.Al-SmairanM.ShawaqfahM.AlmomaniF.2021Techno-economic investigation of an integrated boiler–solar water heating/cooling system: a case studyEnergies14(Release 1):118110.3390/en14010001Search in Google Scholar
Climate of Kazakhstan. [Electronic Resource] 2021. Available at: https://ru.wikipedia.org/wiki/%D0%9A%D0%BB%D0%B8%D0%BC%D0%B0%D1%82_%D0%9A%D0%B0%D0%B7%D0%B0%D1%85%D1%81%D1%82%D0%B0%D0%BD%D0%B0 (accessed May 31, 2021). [in Russian].Climate of Kazakhstan[Electronic Resource]2021Available at: https://ru.wikipedia.org/wiki/%D0%9A%D0%BB%D0%B8%D0%BC%D0%B0%D1%82_%D0%9A%D0%B0%D0%B7%D0%B0%D1%85%D1%81%D1%82%D0%B0%D0%BD%D0%B0 (accessed May 31, 2021). [in Russian]Search in Google Scholar
Farmer’s house. [Electronic Resource] 2021. Available at: https://kz.all.biz/domiki-fermera-g3046889 (accessed May 31, 2021). [in Russian].Farmer’s house[Electronic Resource]2021Available at: https://kz.all.biz/domiki-fermera-g3046889 (accessed May 31, 2021). [in Russian]Search in Google Scholar
Good, C., Andresen, I. and Hestnes, A. G. 2015. Solar energy for net zero energy buildings—a comparison between solar thermal, PV and photovoltaic–thermal (PV/T) systems. Solar Energy 122: 986–996.GoodC.AndresenI.HestnesA. G.2015Solar energy for net zero energy buildings—a comparison between solar thermal, PV and photovoltaic–thermal (PV/T) systemsSolar Energy12298699610.1016/j.solener.2015.10.013Search in Google Scholar
Habib, N. A., Ali, A. J., Chaichan, M. T. and Kareem, M. 2021. Carbon nanotubes/paraffin wax nanocomposite for improving the performance of a solar air heating system. Thermal Science and Engineering Progress 23: 100877.HabibN. A.AliA. J.ChaichanM. T.KareemM.2021Carbon nanotubes/paraffin wax nanocomposite for improving the performance of a solar air heating systemThermal Science and Engineering Progress2310087710.1016/j.tsep.2021.100877Search in Google Scholar
Heating a cabin in winter. [Electronic Resource] 2016. Available at: https://www.bytovki-rf.ru/otoplenie-modulnyh-zdanij/ (accessed May 31, 2021). [in Russian].Heating a cabin in winter[Electronic Resource]2016Available at: https://www.bytovki-rf.ru/otoplenie-modulnyh-zdanij/ (accessed May 31, 2021). [in Russian]Search in Google Scholar
Huang, Y., Chen, X., Yu, J. and Tao, L. -Q. 2021. Graphene-based film heater fabricated by laser writing. Materials Letters 284: 128869.HuangY.ChenX.YuJ.TaoL. -Q.2021Graphene-based film heater fabricated by laser writingMaterials Letters28412886910.1016/j.matlet.2020.128869Search in Google Scholar
Ismuratov, S. B., Bedych, T. V., Gluchshenko, T. I., Ismuratov, D. S. and Kukhar, V. S. 2020. Production of bioethanol from biomass in the conditions of northern Kazakhstan. Agronomy. Research xxxxxxx 18: 404–409.IsmuratovS. B.BedychT. V.GluchshenkoT. I.IsmuratovD. S.KukharV. S.2020Production of bioethanol from biomass in the conditions of northern Kazakhstan. AgronomyResearch xxxxxxx18404409Search in Google Scholar
Iyendo, T. O., Akingbaso, Y. A., Alibaba, H. Z. and Özdeniz, M. B. 2016. A relative study of microclimate responsive design approaches to buildings in Cypriot settlements. ITU A|Z 13: 69–81.IyendoT. O.AkingbasoY. A.AlibabaH. Z.ÖzdenizM. B.2016A relative study of microclimate responsive design approaches to buildings in Cypriot settlementsITU A|Z13698110.5505/itujfa.2016.51423Search in Google Scholar
Kogay, I. V.2015. Method of Manufacturing Electrically Conductive Filament for Electric Heating Fabric and Apparatus for its Implementation. Electronic Object of Deposit/International depository “INTEROCO”. Berlin: European Union; -№EU-000678.KogayI. V.2015Method of Manufacturing Electrically Conductive Filament for Electric Heating Fabric and Apparatus for its Implementation. Electronic Object of Deposit/International depository “INTEROCO”.BerlinEuropean Union-№EU-000678Search in Google Scholar
Pat. Nº-17940, KZ, Method of manufacturing electrically conductive filament for electric heating fabric and apparatus for its implementation./I. V. Kogay, V. A. Pak, L. S. Chan; publ. 16.10.2006, Bull. №10.Pat. Nº-17940KZMethod of manufacturing electrically conductive filament for electric heating fabric and apparatus for its implementation./I. V. Kogay, V. A. Pak, L. S. Chan; publ. 16.10.2006, Bull. №10Search in Google Scholar
Peculiarities of installing heating systems in a residential building. [Electronic Resource] 2020. Available at: https://agpipe.ru/articles/otoplenie-dlya-zhilogo-zdaniya (accessed May 31, 2021). [in Russian].Peculiarities of installing heating systems in a residential building[Electronic Resource]2020Available at: https://agpipe.ru/articles/otoplenie-dlya-zhilogo-zdaniya (accessed May 31, 2021). [in Russian]Search in Google Scholar
Pillai, A. S., Chandran, A. and Peethambharan, S. K. 2021. MWCNT Ink with PEDOT:PSS as a multifunctional additive for energy efficient flexible heating applications. Applied Materials Today 23: 100987.PillaiA. S.ChandranA.PeethambharanS. K.2021MWCNT Ink with PEDOT:PSS as a multifunctional additive for energy efficient flexible heating applicationsApplied Materials Today2310098710.1016/j.apmt.2021.100987Search in Google Scholar
Rajendran, V., Ramasubbu, H., Alagar, K. and Ramalingam, V. K. 2021. Performance analysis of domestic solar air heating system using V-shaped baffles—an experimental study». Proceedings of the Institution of Mechanical Engineers E: Journal of Process Mechanical Engineering 235(5): 1705–1717. doi: 10.1177/09544089211016256.RajendranV.RamasubbuH.AlagarK.RamalingamV. K.2021Performance analysis of domestic solar air heating system using V-shaped baffles—an experimental study»Proceedings of the Institution of Mechanical Engineers E: Journal of Process Mechanical Engineering235(5):17051717. doi:10.1177/09544089211016256Open DOISearch in Google Scholar
Solar Thermal Systems. [Electronic Resource] 2020. Available at: https://www.designingbuildings.co.uk/wiki/Solar_thermal_systems (accessed June 8, 2021).Solar Thermal Systems[Electronic Resource]2020Available at:https://www.designingbuildings.co.uk/wiki/Solar_thermal_systems (accessed June 8, 2021)Search in Google Scholar
Tian, T., Wei, X., Elhassan, A., Yu, J., Li, Z. and Ding, B. 2021. Highly flexible, efficient, and wearable infrared radiation heating carbon fabric. Chemical Engineering Journal 417: 128114.TianT.WeiX.ElhassanA.YuJ.LiZ.DingB.2021Highly flexible, efficient, and wearable infrared radiation heating carbon fabricChemical Engineering Journal41712811410.1016/j.cej.2020.128114Search in Google Scholar
Treichel, C. and Cruickshank, C. A. 2021. Economic analysis of heat pump water heaters coupled with air-based solar thermal collectors in Canada and the United States. Journal of Building Engineering 35: 102034.TreichelC.CruickshankC. A.2021Economic analysis of heat pump water heaters coupled with air-based solar thermal collectors in Canada and the United StatesJournal of Building Engineering3510203410.1016/j.jobe.2020.102034Search in Google Scholar
Wang, J., Qi, X., Ren, F., Zhang, G. and Wang, J. 2021. Optimal design of hybrid combined cooling, heating and power systems considering the uncertainties of load demands and renewable energy sources. Journal of Cleaner Production 281: 125357. doi: 10.1016/j.jclepro.2020.125357.WangJ.QiX.RenF.ZhangG.WangJ.2021Optimal design of hybrid combined cooling, heating and power systems considering the uncertainties of load demands and renewable energy sourcesJournal of Cleaner Production281125357. doi:10.1016/j.jclepro.2020.125357Open DOISearch in Google Scholar
Weather in Kostanay in February. [Electronic Resource] 2021. Available at: http://kazakhstan.pogoda360.ru/448741/february/ (accessed April 23, 2021). [in Russian].Weather in Kostanay in February[Electronic Resource]2021Available at:http://kazakhstan.pogoda360.ru/448741/february/ (accessed April 23, 2021). [in Russian]Search in Google Scholar
What is the Most Energy Efficient Space Heater - and the Best Solar Air Heater? [Electronic Resource] 2020. Available at: https://www.solarreviews.com/blog/what-is-the-most-energy-efficient-space-heater (accessed June 26, 2021).What is the Most Energy Efficient Space Heater - and the Best Solar Air Heater?[Electronic Resource]2020Available at: https://www.solarreviews.com/blog/what-is-the-most-energy-efficient-space-heater (accessed June 26, 2021)Search in Google Scholar
Why We No Longer Sell Solar Air Heaters. [Electronic Resource] 2019. Available at: https://reductionrevolution.com.au/blogs/news-reviews/why-we-no-longer-sell-solar-air-heaters (accessed July 26, 2021).Why We No Longer Sell Solar Air Heaters[Electronic Resource]2019Available at: https://reductionrevolution.com.au/blogs/news-reviews/why-we-no-longer-sell-solar-air-heaters (accessed July 26, 2021)Search in Google Scholar
Xia, Y., Cai, P., Liu, Y., Zhu, J., Guo, R., Zhang, W., Gan, Y., Huang, H., Zhang, J., Liang, C., He, X. and Xiao, Z. 2021. A low-cost and high-efficiency electrothermal composite film composed of hybrid conductivity fillers and polymer blends matrix for high-performance plate heater. Journal of Electronic Materials 50(Release 6): 3084–3094.XiaY.CaiP.LiuY.ZhuJ.GuoR.ZhangW.GanY.HuangH.ZhangJ.LiangC.HeX.XiaoZ.2021A low-cost and high-efficiency electrothermal composite film composed of hybrid conductivity fillers and polymer blends matrix for high-performance plate heaterJournal of Electronic Materials50(Release 6):3084309410.1007/s11664-021-08873-0Search in Google Scholar
