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Autor
Matuszak Zbigniew (Maritime University of Szczecin), Złoczowska Ewelina (Maritime University of Szczecin), Żabińska Iwona (Silesian University of Technology)
Tytuł
The Impact of Selected Cooling Systems on the Urban Natural Environment
Źródło
Zeszyty Naukowe. Organizacja i Zarządzanie / Politechnika Śląska, 2022, z. 161, s. 111-120, bibliogr. 10 poz.
Tytuł własny numeru
Contemporary Management
Słowa kluczowe
Chłodnictwo, Środowisko miejskie, Środowisko przyrodnicze
Refrigeration, Urban environment, Natural environment
Uwagi
summ.
Abstrakt
Purpose: The aim of the paper is to indicate the possibility of using refrigerants which do not have a harmful effect on the destruction of the Earth's ozone layer and the urban environment. Design/methodology/approach: The environmental impact of refrigerants was characterized. Selected refrigerants and their place of application are described. The impact of selected refrigerants on the urban environment is presented. Findings: An attempt has been made to identify the absolute environmental impact of selected stationary refrigeration systems in operation in cities, i.e. home refrigerators, individual air conditioners, heat pumps, air conditioning systems of large-format stores - shopping centers, or cold stores. Both the direct impact related to the refrigerant used in the system and the indirect one related to the energy consumption to drive the device have been considered. Practical implications: Use of new refrigerants that do not damage the Earth's ozone layer. Originality/value: The environmental impact of different refrigerants is presented. The paper is addressed to technical services and personnel responsible for the design and operation of refrigeration and air-conditioning equipment.(original abstract)
Pełny tekst
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Bibliografia
Pokaż
  1. Coulomb, D. and Dupont, J.-L (2017). The impact of the refrigeration sector on climate change, 35th Informatory Note on Refrigeration Technologies.
  2. Dupont, J.L., Domanski, P., Lebrun, P., Ziegler, F. (2019). The Role of Refrigeration in the Global Economy. 38th Note on Refrigeration Technologies. s.l. IIF-IIR.
  3. Garcia Pabon, J.J, Khosravi, A., Belman-Flores, J.M., Machado L., Revellin, R. (2020). Applications of refrigerant R1234yf in heating, air conditioning and refrigeration systems: A decade of researches. International Journal of Refrigeration, pp. 104-113.
  4. https://www.lg.com/us/support/products/ documents/LRFDS3006%20Spec%20Sheet.pdf.
  5. Krajowa baza o emisjach gazów cieplarnianych i innych substancji - KOBiZE (2019).
  6. Lemmin, E.W. et al. (2018). NIST Standard Reference Database 23: Reference Fluid Thermodynamic and Transport Properties-REFPROP, Version 10.0. National Institute of Standards and Technology. Standard Reference Data Program.
  7. Newchurch, M.J., et al. (2003). Evidence for slowdown in stratospheric ozone loss: First stage of ozone recovery. Journal Of Geophysical Research, Vol. 108, D16,4507.
  8. PN-EN 378-3+A1:2021. Instalacje chłodnicze i pompy ciepła - Wymagania dotyczące bezpieczeństwa i ochrony środowiska.
  9. .Montreal Protocol on Substances That Deplete the Ozone Layer (1987). New York, USA: United Nations.
  10. Weier Tang, Guogeng He, Dehua Cai, Yihao Zhu, Aoni Zhang, Qiqi Tian (2017). The experimental investigation of refrigerant distribution and leaking characteristics of R290 in split type household air conditioner. Applied Thermal Engineering, Vol. 115, pp. 72-80.
Cytowane przez
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ISSN
1641-3466
Język
eng
URI / DOI
http://dx.doi.org/10.29119/1641-3466.2022.161.8
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