Open Access
Issue
E3S Web Conf.
Volume 246, 2021
Cold Climate HVAC & Energy 2021
Article Number 07006
Number of page(s) 9
Section System Design and Sizing
DOI https://doi.org/10.1051/e3sconf/202124607006
Published online 29 March 2021
  1. Historic England, B.S.E.T., Building Services Engineering and the Historic Environment - One-day Course. 2019. [Google Scholar]
  2. Office of Gas and Electricity Markets (ofgem) The Decarbonisation of Heat. 2016. [Google Scholar]
  3. Geograph. Portway Tortoise Stove, St Thomas a Becket church, Brightling. 2021 15/01/2021]; Available from: https://www.geograph.org.uk/photo/2841311. [Google Scholar]
  4. English Heritage Heating and Ventilation in Historic Building Engrineering Systems and Equipment, B. Roberts, Editor. 2008. [Google Scholar]
  5. Legner, M. and M. Geijer. Heating regimes in old Swedish churches, c. 1880-1980. in 2nd European Workshop on Cultural Heritage Preservation. 2012. Kjeller, Norway: Norwegian Institute for Air Research. [Google Scholar]
  6. Makrodimitri, M., et al., Heating historic structures. A review of heating systems in historic church buildings and implications related to conservation and comfort. The case of four historic churches in Cambridge. 2017, Research Gate. [Google Scholar]
  7. Camuffo, D., et al., An advanced church heating system favourable to artworks: A contribution to European standardisation. Journal of Cultural Heritage, 2010. 11(2): p. 205-219. [Google Scholar]
  8. Broström, T., et al. Evaluation of different approaches of microclimate control in cultural heritage buildings. in Climate for Collections-Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. 2013. [Google Scholar]
  9. Lawson-Smith, P., Environmental Control in Historic Buildings. Journal of Architectural Conservation, 1998. 4(1): p. 42-55. [Google Scholar]
  10. Church EcoMiser 100% efficient electric heating for churches. 2020 31/08/2020]; Available from: https://www.dunphychurchheating.co.uk/fuel-installation/propane-heating/. [Google Scholar]
  11. Church Care Review of heating guidance: Establishing principles, T.C.o. England, Editor. 2020. [Google Scholar]
  12. Camuffo, D. and A. Della Valle, Church Heating: A Balance between Conservation and Thermal Comfort, in Experts’ Roundtable on Sustainable Climate Managment Strategies. 2007, The Getty Conservation Institute: Tenerife, Spain. [Google Scholar]
  13. Race, G.L. and H. Carwardine, How to design a heating system. 2006, London: CIBSE. [Google Scholar]
  14. Aste, N., et al., CFD Comfort Analysis of a Sustainable Solution for Church Heating. 8th International Conference on Applied Energy (Icae2016), 2017. 105: p. 2797-2802. [Google Scholar]
  15. Johnson, G. Heat pumps and churches - some points to bear in mind. [cited 2018 20/08/2018]; Available from: https://cofeportsmouth.contentfiles.net/media/assets/file/Heat_Pumps_and_Churches.pdf. [Google Scholar]
  16. Historic Scotland Refurbishment Case Study 19. Trial Church Heating: Radiant Panels and Air Source Heat Pump at Kilmelford Church. 2015, Historic Scotland. [Google Scholar]
  17. Turcanu, F.E., M. Verdes, and I. Serbanoiu, Churches Heating: The Optimum Balance Between Cost Management and Thermal Comfort. 9th International Conference Interdisciplinarity in Engineering, Inter-Eng 2015, 2016. 22: p. 821-828. [Google Scholar]
  18. Abel, E., L. Mikhailov, and J. Keane, Inconsistency reduction in decision making via multi-objective optimisation. European Journal of Operational Research, 2018. 267(1): p. 212-226. [Google Scholar]
  19. Salustri, F. Weighted Decision Matrix. 2020 25/07/2020 16/07/2020]; Available from: https://deseng.ryerson.ca/dokuwiki/design:weighted_decision_matrix. [Google Scholar]
  20. Health and Safety Executive Risk Based Approach - Risk Model (Initial Decision Matrix). 2010. [Google Scholar]
  21. Steer and Hastings Borough Council Hastings Seafront Feasbility Mobility Study: Strategic Outline Business Case. 2019. p. 40. [Google Scholar]
  22. Salustri, F. The pairwise comparison method. 2020 12/03/2020 16/07/2020]; Available from: https://deseng.ryerson.ca/dokuwiki/design:pairwise_comparison. [Google Scholar]
  23. Agee, P., et al., A human-centred approach to smart housing. Building Research and Information, 2021. 49(1): p. 84-99. [Google Scholar]
  24. Long, F. Real or imaginary: The effectiveness of using personas in product design. in Proceedings of the Irish Ergonomics Society annual conference. 2009. Dublin. [Google Scholar]
  25. Law, P.-M., R.C. Basole, and Y. Wu, Duet: Helping data analysis novices conduct pairwise comparisons by minimal specification. IEEE transactions on visualization and computer graphics, 2018. 25(1): p. 427-437. [Google Scholar]
  26. Ţurcanu, F.E., et al. Numerical analysis of the thermal comfort in a church building. 2019. EDP Sciences. [Google Scholar]
  27. Varas-Muriel, M.J. and R. Fort, Microclimatic monitoring in an historic church fitted with modern heating: Implications for the preventive conservation of its cultural heritage. Building and Environment, 2018. 145: p. 290-307. [Google Scholar]
  28. Lodi, C., et al., Improvement of thermal comfort and energy efficiency in historical and monumental buildings by means of localized heating based on non-invasive electric radiant panels. Applied Thermal Engineering, 2017. 126: p. 276-289. [Google Scholar]
  29. Samek, L., et al., The impact of electric overhead radiant heating on the indoor environment of historic churches. Journal of Cultural Heritage, 2007. 8(4): p. 361-369. [Google Scholar]
  30. Gwynn, D. and Royal School of Church Music Caring for the king of instruments. 2008. [Google Scholar]
  31. Semprini, G., C. Galli, and S. Farina, Reuse of an ancient church: thermal aspect for integrated solutions. Climamed 2017 - Mediterranean Conference of Hvac Historical Buildings Retrofit in the Mediterranean Area, 2017. 133: p. 327-335. [Google Scholar]
  32. Larsen, P.K. and T. Brostrom, Climate Control in Historic Buildings. 2015, Uppsala University, National Museum of Denmark. [Google Scholar]

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