Lifecycle and ecomonical study of selected thermal solar installations

[1] Giovannetti F.; Kirchner, M.; Sass R.; Rockdendorf G., (2016). Enameled glass panels for solar thermal building envelopes. Energy Procedia. Volume 91, 49-55.10.1016/j.egypro.2016.06.170Search in Google Scholar

[2] Teodorescu D.; Vartires A.; (2016). A study of the influence of solar panels coupled with thermal systems for a residential building, by applying methods of evaluation as EN 15316-4-3:2014 and TRANSOL. Energy Procedia. Volume 85, 530-53810.1016/j.egypro.2015.12.240Search in Google Scholar

[3] Mosallat F.; ELMekkawy T.; Friesen D.; Molinski T.; Loney, S.; Bibeau, E., (2013) Modeling, simulation and control of flat panel solar collectors with thermal storage for heating and cooling applications. Procedia Computer Science. Volume 19, 686-693Search in Google Scholar

[4] Yang X.; Cai Z.; Luo T., (2016) A special type of tube receiver unit for solar thermal power generation towers. Energy Reports 6, 2841-285010.1016/j.egyr.2020.10.017Search in Google Scholar

[5] Mehrali M.; Elshof J.E.; Shani M.; Mahmoudi A., (2021) Simultaneous solar-thermal energy harvesting and storage via shape stabilized salt hydrate phase change material. Chemical Engineerring Journal 405.10.1016/j.cej.2020.126624Search in Google Scholar

[6] Tschopp D.; Tian Z.; Berberich M.; Fan J.; Perers B.; Furbo S., (2020) Large-scale solar thermal systems in leading coiuntries: A review and comparative study of Denmark, China, Germany and Austria. Applied Energy 270.Search in Google Scholar

[7] Valentin Software, (2018). T*SOL. BerlinSearch in Google Scholar

[8] Kleiner Y.; Adams B.J.; Rogersm J.S. (2001) Water distribution network renewal planning. J. Comput. Civ. Eng., 15, 15–26.Search in Google Scholar

[9] Burman, E.; Mumovic D.; Kimpian J. (2014) Towards measurement and verification of energy performance under the framework of the European directive for energy performance of buildings. Energy 77, 153–163.10.1016/j.energy.2014.05.102Search in Google Scholar

[10] Ganiç N.; Yılmaz A.Z., (2014) Adaptation of the cost optimal level calculation method of Directive 2010/31/EU considering the influence of Turkish national factors. Appl. Energy 123, 94–107.Search in Google Scholar

[11] Paksoy H.O.; Andersson O.; Abaci S.; Evliya H.; Turgut B. (2000) Heating and cooling of a hospital using solar energy coupled with seasonal thermal energy storage in an aquifer. Renew. energy 19, 117–122.Search in Google Scholar

[12] Henning H.-M.; Döll, J. (2012) Solar systems for heating and cooling of buildings. Energy Procedia 30, 633–653.10.1016/j.egypro.2012.11.073Search in Google Scholar

[13] Bouhal T.; Fertahi S. ed-D.; Agrouaz Y.; El Rhafiki T.; Kousksou T.; Zeraouli Y.; Jamil A. (2018) Technical assessment, economic viability and investment risk analysis of solar heating/cooling systems in residential buildings in Morocco. Sol. Energy, 170, 1043–1062.Search in Google Scholar

[14] Asdrubali F.; Buratti C.; Cotana F.; Baldinelli G.; Goretti M.; Moretti E.; Baldassarri C.; Belloni E.; Bianchi F.; Rotili A.; et al. (2013) Evaluation of green buildings’ overall performance through in situ monitoring and simulations. Energies 6, 6525–6547.10.3390/en6126525Search in Google Scholar

[15] Cucchiella F.; D’Adamo I.; Gastaldi M.; Stornelli V. (2018) Solar photovoltaic panels combined with energy storage in a residential building: An economic analysis. Sustain.10.3390/su10093117Search in Google Scholar