Pitanje br. 16099
 
Pitanje: 
 Toplinska pumpa zrak-zrak za potrebe grijanja i hlađenja stambenog objekta putem FN sustava
Odgovor: 
 Knjige:

  1. Budin, Rajka. Osnove tehničke termodinamike. Zagreb : Školska knjiga, 2002. - sign.  536(075.8) /BUD/ o  OP

  2. Kalea, Marijan. Obnovljivi izvori energije : energetski pogled. Zagreb : Kiklos - krug knjige, 2014. - sign.  620 /KAL/ o OP, ZZ

  3. Krpan-Lisica, Draga. Osnove energetike. Zagreb : Hinus, 2001. - sign.  620(075.8) /KRP/ o

  4. Kulišić, Petar. Mehanika i toplina : udžbenik fizike za studente elektrotehnike i računarstva. Zagreb : Školska knjiga, 2005. - sign.  53(075.8) /KUL/ m

  5. Labudović, Boris. Obnovljivi izvori energije. Zagreb : Energetika marketing, 2002. - sign.  620 /LAB/ o  OP

  6. Labudović, Boris. Osnove primjene dizalica topline. Zagreb : Energetika marketing, 2009. - sign.  621.5 /LAB/ o  OP

  7. Nikšić, Mladen. Strojarstvo : osnove teorije. Zagreb : Fakultet prometnih znanosti, 2017. - sign.  621.8(075.8) /NIK/ s  OP

  8. Paić, Mladen. Toplina, termodinamika, energija : udžbenik fizike za studente Prirodoslovno-matematičkog fakulteta u Zagrebu. Zagreb : Školska knjiga, 1994. - sign.  536(075.8) /PAI/ t  OP

  9. Šljivac, Damir. Obnovljivi izvori energije s osvrtom na štednju. Osijek : Elektrotehnički fakultet, 2007. - sign.  620 /ŠLJI/ o  OP


Članci u časopisima:


  1. Bupić, Matko. Stanje i trendovi uporabe dizalica topline. // Naše more. - 53 (2006), 5-6; str. 213-219.

  2. Gašparović, Iva. Analiza prostornih podataka o solarnom potencijalu za Hrvatsku. // Geodetski list. - 73 (2019), 1 (96); str. 25-44.

  3. Macenić, Marija. Heat Pump System Efficiency Comparison Of Different Renewable Energy Sources – A Family House Case Study In Zagreb City Area. // Rudarsko-geološko-naftni zbornik. - 33 (2018), 5; str. 13-24.


Izvori na internetu (24.07.2020.):


  1. Air-Source Heat Pumps. National Renewable Energy Laboratory, 2001. URL: https://www.nrel.gov/docs/fy01osti/28037.pdf

  2. Ammar, A. A. Performance study on photovoltaic/thermal solar-assisted heat pumpsystem. // Journal of Thermal Analysis and Calorimetry. - 136 (2019), 1; str. 79–87. URL: https://www.researchgate.net/publication/327692212_Performance_study_on_photovoltaicthermal_solar-assisted_heat_pump_system

  3. Bee, E. Air-source heat pump and photovoltaic systems for residential heating and cooling: Potential of self-consumption in different European climates. // Building Simulation. - 12 (2019), 3; str. 453-463. URL: https://link.springer.com/article/10.1007/s12273-018-0501-5

  4. Emmi, Giuseppe. Multi-source Heat Pump Coupled With A Photovoltaic Thermal (pvt) Hybrid Solar Collectors Technology: A Case Study In Residential Application. // International Journal of Energy Production and Management. - 1 (2016), 4; str. 382-392. URL: https://www.researchgate.net/publication/310793576_Multi-source_Heat_Pump_Coupled_With_A_Photovoltaic_Thermal_pvt_Hybrid_Solar_Collectors_Technology_A_Case_Study_In_Residential_Application

  5. Harrison, Stephen. The Potential and Challenges of Solar Boosted Heat Pumps for Domestic Hot Water Heating. // 12th IEA Heat Pump Conference 2017., Rotterdam. 2017. URL: http://heatpumpingtechnologies.org/archive/hpc2017/wp-content/uploads/2017/05/K.1.9.1-The-Potential-and-Challenges-of-Solar-Boosted-Heat-Pumps-for-Domestic-Hot-Water-Heating.pdf

  6. Lorenzo, C. Performance indicators of photovoltaic heat-pumps. // Heliyon. - 5 (2019), 10; str. 1-16. URL: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6820370/

  7. Perko, J. Calculation and Design of the Heat Pumps. // 3rd International Youth Conference on Energetics 2011. URL: https://bib.irb.hr/datoteka/522559.015_260_1.pdf
UDK pojmovi: 
62 Inženjerstvo i tehnika
Predmetnice: 
 Dizalice topline -- Osnovni pojmovi