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References [1] CEN/TR 16298: 2011. Textiles and textile products – Smart textiles – Definitions, categorization, application and standardization needs. [2] Stoppa, M., Chiolerio, A. (2014). Wearable electronics and smart textiles: a critical review. Sensors, 14(7), 11957-11992. [3] De Mey, G., Özçelik, M., Schwarz, A., Kazani, I., Hertleer, C., et al. (2014). Designing of conductive yarn knitted thermal comfortable shirt using battery operated heating system. Journal of Textile and Apparel/Tekstil ve Konfeksiyon, 24(1), 26-29. [4] Strazdienė, E., Dobilaitė, V

References Vallios, I., Tsoutsos, T., Papadakis G. Design of biomass district heating systems Biomass and Bioenergy, Volume 33, Issue 4, April 2009, Pages 659-678 Difs, K., Wetterlund, E., Trygg, L., Söderström, M. Biomass gasification opportunities in a district heating system Biomass and Bioenergy, Volume 34, Issue 5, May 2010, Pages 637-651 Hepbasli, A. A review on energetic, exergetic and exergoeconomic aspects of geothermal district heating systems (GDHSs) Energy Conversion and Management, Volume 51, Issue 10, October 2010, Pages 2041-2061 Holmgren, K

R eferences [1] Latosov E., Volkova A., Siirde A., Thalfeldt M. The Impact of Parallel Energy Consumption on the District Heating Networks. Environmental and Climate Technologies 2019:23:1–13. https://doi.org/10.2478/rtuect-2019-0001 [2] Lake A., Rezaie B., Beyerlein S. Review of district heating and cooling systems for a sustainable future. Renewable and Sustainable Energy Reviews 2017:67:417–25. https://doi.org/10.1016/j.rser.2016.09.061 [3] Pantaleo A. M., Giarola S., Bauen A., Shah N. Integration of biomass into urban energy systems for heat and power

REFERENCES Babiak, J. – Olesen, B.W. – Petráš, D. (2013) Low Temperature Heating and High Temperature Cooling : Guidebook No. 7. 3rd revised ed. Brussels: REHVA, 108 pp., ISBN 2-9600468-6-2. Bašta, J. (2002) Regulace vytápění . Prague: ČVUT, 99 pp., ISBN 80-01-02582-9. (Heating control) Cihelka, J. – Bradna, J. – Cikhart, J. – Čermák, J. – Chyský, J. – Pitter, J. – Valášek, J. (1985) V ytápění, větrání a klimatizace. Prague: SNTL, 648 pp. (Heating, ventilation and air conditioning) Ehrenwald, P. – Kurčová, M. (2012) Regulácia vykurovania a chladenia

References Žīgurs, Ā., Cers, A. Pilsētas siltumtīklu turpgaitas temperatūras samazināšanas ietekmes izpēte uz ekonomiskajiem rādītājiem. The Research Based on Economic Factors on Reduction of the Influence of Forwarding Temperatures in the Heat Systems of the City // RTU zinātniskie raksti. 6. sēr., Mašīnzinētne un transports. - 2. sēj. (2009), 1-100 lpp. Dalla Rosa, A., Li, H., Svendsen, S. Method for optimal design of pipes for low-energy district heating, with focus on heat losses, Department of Civil Engineering, Technical University of Denmark, Brovej

and potentially harmful constituents (HPHC) of tobacco products on which F ood & D rug A dministration (FDA) requires reporting ( 1 ). Also, NNK and NNN have been classified as human carcinogens (Class 1) by the I nternational A gency for R esearch on C ancer (IARC) ( 2 ). Tobacco heating has been reported to increase the level of TSNAs in tobacco ( 3 , 4 ). In addition to the heating of tobacco behind the burning cone of a common burning cigarette, there are other instances when tobacco is heated, although at lower temperatures. Such cases include

Reference 1. B artnicki G., N owak B., B olach M. 2013 Straty ciepła na przesyle jako cecha scentralizowanych systemów zaopatrzenia w ciepło „Instal” Nr 5, 4-7 2. B ordin CH., G ordini A., V igo D. 2016 An optimization approach for district heating strategic network design European Journal of Oprational Research No. 252, 296-307 3. C zemplik A. 1999 Interakcja międzypoziomowa w rozproszonych układach regulacji elastycznych systemów ciepłowniczych Raport serii PREPRINTY nr 5/99 (rozprawa doktorska) Wrocław 4. D anielewicz J., Ś niechowska B., S

. “Collaborative benchmarking of municipalities in the Czech republic: present experience.” The NISPAcee Journal of Public Administration and Policy . 7 (1): 63 – 83. P Squared Group, LLC. 2008. Heating with Biomass: A Feasibility Study of Wisconsin Schools Heated with Wood . Madison, Wisconsin: P Squared Group LLC and Biomass Energy Resource Center. Půček, M. 2014. “Vedou vyšší výdaje na úředníka k nižšímu riziku korupce? (Analýza českých krajů)” [Do higher expenditures per official result in lower risk of corruption? (Analysis of Czech regions]. Ekonomický časopis 2

R eferences [1] Sarma U., Bazbauers G. Algorithm for calculation of district heating tariff benchmark. Energy Procedia 2017:128:445–452. https://doi.org/10.1016/j.egypro.2017.09.029 [2] Munksgaard J., Pade L. L., Fristrup P. Efficiency gains in Danish district heating. Is there anything to learn from benchmarking? Energy Policy 2005:33(15):1986–1997. https://doi.org/10.1016/j.enpol.2004.03.019 [3] Comnes L. J., Stoft G.A., Greene S., Hill N. Performance-Based Ratemaking for Electric Utilities: Review of Plans and Analysis of Economic and Resource- Planning

References 1. Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions. Energy 2020. A strategy for competitive, sustainable and secure energy. Available at <http://www.energy.eu/directives/com-2010-0639.pdf>>. [Accessed 01.12.2011]. 2. Rezaie B, Rosen MA . District heating and cooling: Review of technology and potential enhancements. Applied Energy 2012; 93: 2-10. 3. Hlebnikov A., Volkova A., Džuba O., Poobus A., Kask U. Damages of the Tallinn District Heating