Spara och bevara* bibliographic database
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Number of items at this level: 132.

A

Abdul Hamid, Akram (2019) Field Measurements for Verification of the Impact of Renovation and Maintenance Measures on Buildings: - regarding Energy Efficiency, Indoor Environment and Moisture Safety. Doctoral thesis, Lunds universitet.

Akander, Jan and Cehlin, Mathias and Moshfegh, Bahram (2017) Assessing the Myths on Energy Efficiency When Retrofitting Multifamily Buildings in a Northern Region - What is true and what is not? In: Sustainable High Rise Buildings in Urban Zones. Springer International Publishing.

Ashley-Smith, J and Umney, N and Ford, D (1994) Let's be honest - realistic environmental parameters for loaned objects. Preventive conservation: practice, theory and research. Preprints of the contributions to the Ottawa Congress, 12-16 September 1994 . pp. 28-31.

B

Bartsch, Peter and Quaisser, Christiane and Giere, Peter and Theuer-Kock, Arwid and Feck, Norbert (2013) New meets old – the requirements and limits of new collection facilities at the Museum für Naturkunde Berlin. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 163-178.

Bernardi, A and Becherini, F (2002) Microclimatic Control: Management of Environment and Consequences. Choices and Strategies for Preservation of the Collective Memory, International Conference, Dobbiaco/Toblach (prov. Bolzano, Italy), 2002 June 25-29.

Bernardi, Adriana (2008) Microclimate inside Cultural Heritage Buildings. Il Prato. ISBN 978-88-6336-032-5

Bichlmair, Stefan and Kilian, Ralf (2011) Room Climate in Linderhof Palace: Impact of ambient climate and visitors on room climate with a special focus on the bedchamber of King Ludwig II. In: Developments in Climate Control of Historic Buildings. Proceedings from the International Conference "Climatization of Historic Buildings, State of the Art", December 2, 2010, Linderhof Palace.

Björling, Mikael and Mattsson, Magnus and Akander, Jan (2018) Infiltration of Air into two World Heritage Farmhouses in Sweden during Winter Conditions. In: Roomvent & Ventilation 2018 'Excellent Indoor Climate and High Performing Ventilation', 2-5 June, 2018, Espoo, Finland.

Blumberga, Andra and Vanaga, Ruta and Freimanis, Ritvars and Blumberga, Dagnija and Antužs, Juris and Krastiņš, Artūrs and Jankovskis, Ivars and Bondars, Edgars and Treija, Sandra (2020) Transition from traditional historic urban block to positive energy block. Energy, 202. ISSN 0360-5442

Bratasz, L and Camuffo, D and Kozłowski, R (2007) Target microclimate for preservation derived from past indoor conditions. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4

Bratasz, Łukasz (2013) Allowable microclimatic variations in museums and historic buildings: reviewing the guidelines. Climate for Collections: Standards and Uncertainties - Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 11-19.

Broström, T (2008) Preventive conservation by climate control in historic buildings. In: Preprints of the 8th triennal meeting for conservators of the Baltic States - Preservation and conservation in 21st century: Knowledge - Challenge - Attitude. Conservation Centre Kanut, pp. 56-59. ISBN 978-9949-15-731-0

Broström, Tor and Vyhlídal, Tomas and Simeunovic, Goran and Klenz Larsen, Poul and Zítek, Pavel (2013) Evaluation of different approaches of microclimate control in cultural heritage buildings. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 105-116.

Broström, Tor and Klenz Larsen, Poul (2015) Climate Control in Historic Buildings. Uppsala university, National Museum of Denmark.

Broström, Tor and Linden, Elisabet and Lindström, Svante and Mattsson, Magnus and Sandberg, Mats (2009) Convective heating in historic buildings – Effects of incorporating heat pumps in the air distribution system. In: Roomvent 2009, 2009, Busan, South Korea.

Broström, Tor and Nilsen, Lisa and Carlsten, Susanna (2019) Conference Report - The 3rd International Conference on Energy Efficiency in Historic Buildings EEHB2018. Uppsala University, Department of Art History. ISBN 978-91-519-0838-0

Brown, D (1996) Alternatives to Modern Air-Conditioning Systems: Using Natural Ventilation and Other Techniques. APT Bulletin, 27 (3). pp. 46-49. ISSN 08488525

Brown, J P and Rose, W (1996) Humidity and Moisture in Historic Buildings: The Origins of Building and Object Conservation. APT Bulletin, 27 (3). pp. 12-23. ISSN 08488525

Brown, S and Cole, I and Daniel, V and King, S and Pearson, C (2002) Guidelines for Environmental Control in Cultural Institutions. Heritage Collections Council, Canberra, Australia.

Buck, Richard D. and Amdur, Elias J. (1964) A Specification for Museum Air conditioning; Humidity Control-Isolated Area Plan. Museum News (6). pp. 53-60.

C

Camuffo, Dario and Bernardi, Adriana (1995) Study of the Microclimate of the Hall of the Giants in the Carrara Palace in Padua. Studies in Conservation, 40 (4). pp. 237-249. ISSN 00393630

Camuffo, D (1998) Microclimate for cultural heritage. Elsevier. ISBN 0444829253

Camuffo, D and Bernardi, A (1996) Controlling the microclimate and particulate matter inside the historic anatomy theatre, Padua. Museum Management and Curatorship, 15 (3). pp. 285-298. ISSN 02604779

Camuffo, D and Bernardi, A and Sturaro, G and Valentino, A (2002) The microclimate inside the Pollaiolo and Botticelli rooms in the Uffizi Gallery, Florence. Journal of Cultural Heritage, 3 (2). pp. 155-161. ISSN 12962074

Camuffo, D and Sturaro, G and Valentino, A (1999) Thermodynamic exchanges between the external boundary layer and the indoor microclimate at the Basilica of Santa Maria Maggiore, Rome, Italy: the problem of conservation of ancient works. Boundary-Layer Meteorology, 92 (2). pp. 243-262. ISSN 00068314

Camuffo, Dario and Bertolin, Chiara and Bonazzi, Achille and Campana, Francesca and Merlo, Curzio (2014) Past, present and future effects of climate change on a wooden inlay bookcase cabinet: A new methodology inspired by the novel European Standard EN 15757:2010. Journal of Cultural Heritage, 15 (1). pp. 26-35.

Caro, Rosana and Sendra, Juan José (2020) Evaluation of indoor environment and energy performance of dwellings in heritage buildings. The case of hot summers in historic cities in Mediterranean Europe. Sustainable Cities and Society, 52. ISSN 2210-6707

Casanovas, Luis Efrem Elias and Peixoto de Freitas, Vasco and Ferreira, Cláudia and Oliveira Sequeira, Sílvia (2013) The limits of Garry Thomson’s Museums Temperate Zone: can they be enlarged? Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 59-68.

Cassar, M (1995) Environmental Management. Routledge. ISBN 0415105595

Cassidy, C E and Pressnail, K D (1996) Diagnosis and Suggested Measures for Moisture Control in a Historic Adobe House Museum. APT Bulletin, 27 (3). pp. 50-55. ISSN 08488525

Christensen, C (1995) Environmental standards: looking beyond flatlining? AIC newsletter, 20 (5). pp. 1-8. ISSN 0887-705X

Conrad, E A (1996) Environmental monitoring as a diagnostic tool. Preservation of collections: assessment, evaluation, and mitigation strategies: papers presented at the workshop, Norfolk, Virginia, June 10-11, 1996. pp. 15-20.

Council for the care of churches, (1955) The Heating of churches. A full technical review of the whole subject. Central council for the care of churches , London.

Crombie, David and Bailey, Chris and Connolly, Bernard and Jones, Sonia and Watts, Siobhan and Yates, Sally Ann (2013) Sustainable climate control for art galleries? Experiences at Liverpool’s Walker Art Gallery. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 193-206.

Curteis, T (2004) Environmental Conditions in Historic Churches: Examining their effect on wall paintings and polychrome surfaces. Transactions of the Ecclesiastical Architects and Surveyors' Association, 5. pp. 36-46.

D

de Bouw, M. and Dubois, S. and Dekeyser, L. and Vanhellemont, Y. (2016) EECHB2016 Energy Efficiency and Comfort of Historic Buildings - Proceedings. Flanders Heritage Agency.

de Rubeis, Tullio and Nardi, Iole and Muttillo, Mirco and Paoletti, Domenica (2020) The restoration of severely damaged churches – Implications and opportunities on cultural heritage conservation, thermal comfort and energy efficiency. Journal of Cultural Heritage, 43. ISSN 12962074

E

Eames, R M (1980) The historic house in climatic extremes: problems and proposals. Conservation within historic buildings. Preprints of the contributions to the vienna congress, 7-13 sept. 1980 . pp. 32-33.

Eibl, Melanie and Burmester, Andreas (2013) Learning from history. Historic indoor climate conditions and climate control strategies. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 217-232.

Entradas Silva, Hugo and Henriques, Fernando M.A. (2014) Microclimatic analysis of historic buildings: A new methodology for temperate climates. Building and Environment, 82. pp. 381-387.

Erhardt, D and Tumosa, C S and Mecklenburg, M F (2007) Applying Science to the Question of Museum Climate. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4

Eriksdotter, Gunhild and Legnér , Mattias (2015) Indoor climate and thermal comfort from a long-term perspective : Burmeister House in Visby, Sweden c. 1650-1900. Home Cultures, 12 (1). pp. 29-54.

F

Fabbri, Kristian and Pretelli, Marco (2014) Heritage buildings and historic microclimate without HVAC technology: Malatestiana Library in Cesena, Italy, UNESCO Memory of the World. Energy and Buildings, 76. pp. 15-31.

Fulton, R (1988) Curators and M&E Consulting Engineers. Museums Journal, 87 (4). pp. 203-205.

G

Garskof, Josh (1997) Cold Comfort, Specifying Mini-Duct Air Conditioning for an Old House. Old House Journal, XXV (4). pp. 41-45.

Gysels, K and Delalieaux, F and Deutsch, F and Van Grieken, R and Camuffo, D and Bernardi, A and Sturaro, G and Busse, H J and Wieser, M (2004) Indoor environment and conservation in the Royal Museum of Fine Arts, Antwerp, Belgium. Journal of Cultural Heritage, 5 (2). pp. 221-230. ISSN 12962074

H

Haiad, J C and Druzik, J and Ayres, J M and Lau, H (1990) Museum environmental requirements. A literature survey. ASHRAE Transactions, 96 (2). ASHRAE .

Halliday, Sandy (2009) Technical Paper 6: Indoor air quality and energy efficiency in traditional buildings. Technical Report. Historic Scotland, Technical Conservation Group.

Haupl, P and Fechner, H and Grunewald, J and Petzold, H (2001) The quantification of the moisture distribution in renovated historical wall structures and exposed monuments. In: Structural Studies, Repairs and Maintenance of Heritage Architecture VII. Advances in Architecture Vol 13 . WIT press. ISBN 1-85312-869-4

Hayati, Abolfazl (2017) Natural Ventilation and Air Infiltration in Large Single‑Zone Buildings: Measurements and Modelling with Reference to Historical Churches. Doctoral thesis, Högskolan i Gävle.

Hayati, Abolfazl and Akander, Jan and Mattsson, Magnus (2018) Simulation of Ventilation Rates and Heat Losses during Airing in Large Single Zone Buildings in Cold Climates. In: Cold Climate HVAC 2018 The 9th International Cold Climate Conference Sustainable new and renovated buildings in cold climates, 12-15 March 2018, Kiruna, Sweden.

Hayati, Abolfazl and Mattsson, Magnus and Sandberg, Mats (2017) Single-sided ventilation through external doors: Measurements and model evaluation in five historical churches. Energy and Buildings, 141. pp. 114-124. ISSN 0378-7788

Hayati, Abolfazl and Mattsson, Magnus and Sandberg, Mats (2016) A Study on Airing Through the Porches of a Historical Church – Measurements and IDA-ICE Modelling. In: SHRAE and AIVC IAQ 2016 — Defining IndoorAir Quality: Policy, Standards and Best Practices, 12–14 September 2016, Alexandria, Virginia, USA.

Hayati, Abolfazl and Mattsson, Magnus and Sandberg, Mats (2019) A wind tunnel study of wind-driven airing through open doors. The International Journal of Ventilation, 18 (2). ISSN 2044-4044

Holl, Kristina (2013) Comparison of indoor climate analysis according to current climate guidelines with the conservational investigation using the example of Linderhof Palace. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 299-310.

Holmberg, J and Johansson, L (1996) Preventive conservation in Swedish museums: technical museum storage room survey 1994-1995. In: ICOM Committee for Conservation, 11th triennial meeting in Edinburgh, Scotland, 1-6 September 1996: Preprints. James & James (Science Publishers) Ltd. , pp. 41-47.

I

Isaacs, Nigel (2019) Evolution of sub-floor moisture management requirements in UK, USA and New Zealand 1600s to 1969. International Journal of Building Pathology and Adaptation, 37 (4). ISSN 2398-4708

Isetti, Carlo and Magrini, Anna and Nannei, Enrico (1996) The Application of Vapour-Permeable Synthetic Membranes to the Climatic Stabilization of Museum Showcases. Studies in Conservation, 41 (4). pp. 229-240. ISSN 00393630

J

Johnson, J S (1999) Chapter 4: Museum Collections Environment. In: Musuem Handbook. National Park Service, Museum Management Program.

K

Kavgic, M and Mumovic, D and Stevanovic, Z and Young, A (2008) Analysis of thermal comfort and indoor air quality in a mechanically ventilated theatre. Energy and Buildings, 40 (7). pp. 1334-1343. ISSN 03787788

Kerschner, R L (2006) Providing Safe and Practical Environments for Cultural Properties in Historic Buildings and Beyond. In: NARA's 20th Annual Preservation Conference, March 2006, topic: Beyond the Numbers - Specifying and Achieving an Efficient Preservation Environment.

Klemm, Lars (2013) Passively conditioned zero-energy storage for cultural properties and archival material. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 151-162.

Klenz Larsen, Poul and Broström, Tor (2011) Climate Control in Cultural Heritage Buildings in Denmark. In: Developments in Climate Control of Historic Buildings. Proceedings from the International Conference "Climatization of Historic Buildings, State of the Art", December 2, 2010, Linderhof Palace.

L

La Gennusa, M and Lascari, G and Rizzo, G and Scaccianoce, G (2008) Conflicting needs of the thermal indoor environment of museums: In search of a practical compromise. Journal of Cultural Heritage, 9 (2). pp. 125-134. ISSN 12962074

La Gennusa, M and Rizzo, G and Scaccianoce, G and Nicoletti, F (2005) Control of indoor environments in heritage buildings: experimental measurements in an old Italian museum and proposal of a methodology. Journal of Cultural Heritage, 6 (2). pp. 147-155. ISSN 12962074

Lankester, Paul and Thickett, David (2013) Delivering damage functions in enclosures. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 337-348.

Larsen, P K (2007) Climate control in Danish churches. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4

Lawson-Smith, P. (1998) Environmental control in historic buildings. Journal of Architectural Conservation (1). pp. 42-55.

Legnér, Mattias and Andrea , Luciani (2013) The historical indoor climate : A long-term approach to conservation environments within heritage buildings. Online Proceedings of the Conference: Built Heritage 2013, Monitoring Conservation and Management; Milan, Italy / [ed] M. Boriani, R. Gabaglio and D. Gulotta, Milano: Politecnico di Milano.

Legnér, Mattias (2019) Not Just a Summer Temple: The Development of Conservation and Indoor Climate in Nationalmuseum, Sweden. Addressing the Climate in Modern Age's Construction History: Between Architecture and Building Services Engineering.

Leijonhufvud, Gustaf and Henning, Annette (2014) Rethinking indoor climate control in historic buildings: The importance of negotiated priorities and discursive hegemony at a Swedish museum. Energy Research & Social Science, 4. pp. 117-123.

Linden, Jeremy and Reilly, James M. and Herzog, Peter (2013) Field-tested methodology for optimizing climate management. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 93-104.

Lo Basso, Gianluigi and Rosa, Flavio and Astiaso Garcia, Davide and Cumo, Fabrizio (2018) Hybrid systems adoption for lowering historic buildings PFEC (primary fossil energy consumption) - A comparative energy analysis. Renewable Energy, 117. ISSN 09601481

Lodi, Chiara and Magli, Susanna and Contini, Francesco Maria and Muscio, Alberto and Tartarini, Paolo (2017) 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, 126. ISSN 13594311

Luciani, Andrea and Manfredi, Carlo and Del Curto, Davide and P. Valisi, Luca (2013) From artwork to building preservation. Some considerations on the ‘historical’ indoor climate of Villa Reale in Milan. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 233-246.

Lull, William P. (1995) Conservation Environment Guidelines for Libraries and Archives. Canadian Council of Archives, Ottawa.

M

Maekawa, S and Toledo, F (2001) A Climate Control System for Hollybourne Cottage, Jekyll Island Historic District, Georgia. IAQ 2001 - Moisture, Microbes, and Health Effects: Indoor Air Quality and Moisture in Buildings in San Francisco, CA, November 4-7, 2001.

Maekawa, S and Toledo, F (2001) Sustainable climate control for historic buildings in hot and humid regions. PLEA 2001 - The 18th Conference on Passive and Low Energy Architecture, Florianópolis - BRAZIL, 7-9 November 2001.

Martens, Marco and Schellen, Henk (2013) Climate risk assessment in museums. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 363-374.

Martins, Ana M.T. and Carlos, Jorge S. (2014) The retrofitting of the Bernardas’ Convent in Lisbon. Energy and Buildings, 68. pp. 396-402.

Martínez-Garrido, M.I. and Aparicio, S. and Fort, R. and Anaya, J.J. and Izquierdo, M.A.G. (2014) Effect of solar radiation and humidity on the inner core of walls in historic buildings. Construction and Building Materials, 51. pp. 383-394.

Mecklenburg, M F and Tumosa, C S (1999) Practical Guide: Temperature and Relative Humidity Effects on the Mechanical and Chemical Stability of Collections. ASHRAE Journal, 41 (4). pp. 77-82.

Mecklenburg, M F and Tumosa, C S and Pride, A (2004) Preserving Legacy Buildings. HVAC Retrofit: A Supplement to ASHRAE Journal, 46 (6). S18-S23.

Michalski, S (1996) Quantified Risk Reduction in the Humidity Dilemma. APT Bulletin, 27 (3). pp. 25-29. ISSN 08488525

N

Napp, Margus and Wessberg, Magnus and Kalamees, Targo and Broström, Tor (2016) Adaptive ventilation for climate control in a medieval church in cold climate. International Journal of Ventilation, 15 (1).

Neuhaus, Edgar (2013) A critical look at the use of HVAC systems in the museum environment. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 117-126.

Nunes de Freitas, Pedro and Correia Guedes, Manuel (2015) The use of windows as environmental control in “Baixa Pombalina's” heritage buildings. Renewable Energy, 73. pp. 92-98.

O

O'Sullivan , P and Oreszczyn, T (1992) Environmental Control in Historic Galleries and Museums. Indoor and Built Environment, 1 (6). pp. 363-366. ISSN 1420326X

Oreszczyn, T and Cassar, M and Fernandez, K (1994) Comparative study of air-conditioned and non air-conditioned museums. Preventive conservation: practice, theory and research. Preprints of the contributions to the Ottawa Congress, 12-16 September 1994 . pp. 144-148.

P

Padfield, T and Larsen, P K and Aasbjerg Jensen, L and Ryhl-Svendsen, M (2007) The potential and limits for passive air conditioning of museums, stores and archives. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4

Padfield, T Conservation physics. Tim Padfield.

Padfield, T (2005) Designing a Museum Store. In: Magasinbygningens fysik og funktion. Copenhagen, pp. 41-43. ISBN 87-990583-0-8

Padfield, T (1990) Low-Energy Climate Control in Museum Stores. Preprints: 9th triennial meeting, Dresden 1990. pp. 596-601.

Padfield, T (2008) Simple climate control in archives is hindered by too strict standards. In: Proceedings of the 8th Symposium on Building Physics in the Nordic Countries. Dept. of Civil Engineering, Technical University of Denmark, pp. 1429-1436. ISBN 978-87-7877-265-7

Padfield, T (2008) Simple climate control in archives. Nordic Symposium on Building Physics, June 2008. (Submitted)

Padfield, T and Larsen, P K (2004) How to design museums with a naturally stable climate. Conservation physics.

Padfield, T and Robinson, A (1996) The climate behind pictures mounted against the outer walls of the chapel of Ledreborg, Denmark. Proceedings of the ICOM-Conservation Committee Conference in Edinburgh, September 1996 , 1. pp. 72-75.

Padfield, Tim (1988) Climate Control in Libraries and Archives. Australian Institute for the Consevation of Cultural Material Bulletin, 14 (1 & 2). pp. 49-68.

Paine, Shelley Reisman (1985) Basic Principles for Controlling Environmental Conditions in Historical Agencies and Museums. American Association for State and Local History Technical Report (3).

Papadopoulos, A M and Avgelis, A and Anastaselos, D (2008) Low energy cooling of the White Tower, functioning as a contemporary museum. Energy and Buildings. ISSN 03787788

Pardue, Diana (1985) Climate Control in Furnished Room Exhibits. CRM (Cultural Resources Management), 8 (3). pp. 20-21.

Pavlogeorgatos, G (2003) Environmental parameters in museums. Building and Environment, 38 (12). pp. 1457-1462. ISSN 03601323

Peng, Zhikai and Debnath, Ramit and Bardhan, Ronita and Steemers, Koen Machine learning-based evaluation of dynamic thermal-tempering performance and thermal diversity for 107 Cambridge courtyards. Sustainable Cities and Society Volume 88, January 2023, 104275, 88.

Phillimore, Elizabeth A. (1979) In Search of the Black Box. UNSPECIFIED.

Pisello, Anna Laura and Petrozzi, Alessandro and Castaldo, Veronica Lucia and Cotana, Franco (2016) On an innovative integrated technique for energy refurbishment of historical buildings: Thermal-energy, economic and environmental analysis of a case study. Applied Energy, 162. pp. 1313-1322. ISSN 03062619

R

Reilly, James (2008) Specifying Storage Environments in Libraries and Archives. http://www.ischool.utexas.edu/kilgarlin/gaga/proceedings.html. pp. 1-5.

Rose, William (2019) Must attic ventilation be preserved in energy retrofits? International Journal of Building Pathology and Adaptation, 37 (4). ISSN 2398-4708

S

Said, M N and Brown, W C and Shirtliffe, C J and Maurenbrecher, A H P (2005) Monitoring of the Building Envelope of a Heritage House - A Case Study. Project Report. The NRC Institute for Research in Construction (NRC-IRC).

Schellen, H L (2002) Heating monumental churches : indoor climate and preservation of cultural heritage. ["eprint_fieldopt_thesis_type_phd" not defined] thesis, Technische Hogeschool Eindhoven, ISBN: 90-386-1556-6.

Schibuola, Luigi and Scarpa, Massimiliano and Tambani, Chiara (2018) Innovative technologies for energy retrofit of historic buildings: An experimental validation. Journal of Cultural Heritage, 30. ISSN 12962074

Schulze, Andreas (2013) How the usual museum climate recommendations endanger our cultural heritage. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 81-92.

Scottish Museum Council, (1995) Factsheet: Temperature and Humidity. Scottish Museum Council.

Staniforth, S (1987) Light and environmental measurement and control in National Trust houses. In: Recent advances in the conservation and analysis of artifacts: jubilee conservation conference papers, London 6-10 July 1987. Summer Schools Press , pp. 327-334. ISBN 0-9512429-0-3

Staniforth, S (2006) Relative humidity as an agent of deterioration. In: The National Trust Manual of Housekeeping - the care of collections in historic houses open to the public. National Trust, pp. 102-113.

Staniforth, S and Hayes, B (1987) Temperature and relative humidity measurement and control in National Trust houses. In: ICOM Committee for Conservation 8th triennial meeting: Sydney, Australia, 6-11 September 1987: preprints. The Getty Conservation Institute , pp. 915-926. ISBN 0-89236-094-1

Staniforth, S and Hayes, B and Bullock, L (1994) Appropriate technologies for relative humidity control for museum collections housed in historic buildings. Preventive conservation: practice, theory and research. Preprints of the contributions to the Ottawa Congress, 12-16 September 1994 . pp. 123-128.

Stub Johnsen, Jesper (2013) Conservation of cultural heritage – European standards on the environment. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 35-44.

T

Tabunschikov, Y and Brodatch, M (2004) Indoor air climate requirements for Russian churches and cathedrals. Indoor Air, 14 (s7). pp. 168-174. ISSN 09056947

Thomson, Garry (1980) Some Hints on Measurement and Control of Climate in Historic Houses. Conservation within historic buildings. Preprints of the contributions to the vienna congress, 7-13 sept. 1980 . pp. 6-8.

U

Utriainen, J and Poikolainen, J and Piispanen, J and Kubin, E (2007) Stabilizing Temperature and RH Conditions in Dry Storage Facilities. Museum Management and Curatorship, 22 (1). pp. 79-90. ISSN 02604779

V

Valentín, N and García, R and De Luis, O and Maekawa, S (1998) Microbial control in archives, libraries and museums by ventilation systems. Restaurator, 19 (2). pp. 85-107. ISSN 0034-5806

Varas-Muriel, M.J. and Fort, R. and Martínez-Garrido, M.I. and Zornoza-Indart, A. and López-Arce, P. (2014) Fluctuations in the indoor environment in Spanish rural churches and their effects on heritage conservation: Hygro-thermal and CO2 conditions monitoring. Building and Environment, 82. pp. 97-109.

Vuerich, E and Malaspina, F and Barazutti, M and Georgiadis, T and Nardino, M (2008) Indoor measurements of microclimate variables and ozone in the church of San Vincenzo (Monastery of Bassano Romano — Italy): A pilot study. Microchemical Journal, 88 (2). pp. 218-223. ISSN 0026265X

W

Wessberg, Magnus (2019) Indoor climate analysis and model based control of massive construction historic buildings. Doctoral thesis, Czech Technical University in Prague.

Wessberg, Magnus and Broström, Tor and Vyhlídal, Tomas (2017) A method to determine heating power and heat up time for intermittent heating of churches. In: Energy Procedia.

Wessberg, Magnus and Leijonhufvud, Gustaf and Broström, Tor (2016) An evaluation of three different methods for energy efficient indoor climate control in Skokloster Castle. In: EECHB2016.

Wessberg, Magnus and Vyhlídal, Tomas and Broström, Tor (2019) A model-based method to control temperature and humidity in intermittently heated massive historic buildings. Building and Environment, 159. ISSN 0360-1323

Z

Zemitis, Jurgis and Borodinecs, Anatolijs and Kalamees, Targo (2019) Analysis of Various Ventilation Solutions for Residential and Non-residential Buildings in Latvia and Estonia: Sustainable Buildings in Cold Climates. In: Cold Climate HVAC 2018.

Zìtek, Pavel and Vyhlídal, Tomas (2008) Model-based moisture sorption stabilization in historical buildings. www.elsevier.com, Building and Environment (30). pp. 1-7.

Zítek, P and Vyhlídal, T (2005) Model Based Control of Moisture Sorption in a Historical Interior. Acta Polytechnica, 45 (4). pp. 5-10. ISSN 1210-2709

Zítek, Pavel and Vyhlídal, Tomáš and Sládek, Oto and Sládek, Aleš and Simeunovic, Goran (2011) Equal-Sorption Microclimate Control Applied to the Holy Cross Chapel at Karlštejn Castle. In: Developments in Climate Control of Historic Buildings. Proceedings from the International Conference "Climatization of Historic Buildings, State of the Art", December 2, 2010, Linderhof Palace.

Ž

Živković, Vesna and Džikić, Veljko (2015) Return to basics—Environmental management for museum collections and historic houses. Energy and Buildings, 95. pp. 116-123.

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