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2. Evaluating assumptions of scales for subjective assessment of thermal environments – Do laypersons perceive them the way, we researchers believe?

Author

Schweiker, Marcel, André, Maíra, Al-Atrash, Farah, Al-Khatri, Hanan, Alprianti, Rea Risky, Alsaad, Hayder, Amin, Rucha, Ampatzi, Eleni, Arsano, Alpha Yacob, Azar, Elie, Bannazadeh, Bahareh, Batagarawa, Amina, Becker, Susanne, Buonocore, Carolina, Cao, Bin, Choi, Joon-Ho, Chun, Chungyoon, Daanen, Hein, Damiati, Siti Aisyah, Daniel, Lyrian, De Vecchi, Renata, Dhaka, Shivraj, Domínguez-Amarillo, Samuel, Dudkiewicz, Edyta, Edappilly, Lakshmi Prabha, Fernández-Agüera, Jesica, Folkerts, Mireille, Frijns, Arjan, Gaona, Gabriel, Garg, Vishal, Gauthier, Stephanie, Jabbari, Shahla Ghaffari, Harimi, Djamila, Hellwig, Runa T, Huebner, Gesche M, Jin, Quan, Jowkar, Mina, Kim, Jungsoo, King, Nelson, Kingma, Boris, Koerniawan, M Donny, Kolarik, Jakub, Kumar, Shailendra, Kwok, Alison, Lamberts, Roberto, Laska, Marta, Lee, MC Jeffrey, Lee, Yoonhee, Lindermayr, Vanessa, Mahaki, Mohammadbagher, Marcel-Okafor, Udochukwu, Marín-Restrepo, Laura, Marquardsen, Anna, Martellotta, Francesco, Mathur, Jyotirmay, Mino-Rodriguez, Isabel, Montazami, Azadeh, Mou, Di, Moujalled, Bassam, Nakajima, Mia, Ng, Edward, Okafor, Marcellinus, Olweny, Mark, Ouyang, Wanlu, de Abreu, Ana Lígia Papst, Pérez-Fargallo, Alexis, Rajapaksha, Indrika, Ramos, Greici, Rashid, Saif, Reinhart, Christoph F, Rivera, Ma Isabel, Salmanzadeh, Mazyar, Schakib-Ekbatan, Karin, Schiavon, Stefano, Shooshtarian, Salman, Shukuya, Masanori, Soebarto, Veronica, Suhendri, Suhendri, Tahsildoost, Mohammad, Tartarini, Federico, Teli, Despoina, Tewari, Priyam, Thapa, Samar, Trebilcock, Maureen, Trojan, Jörg, Tukur, Ruqayyatu B, Voelker, Conrad, Yam, Yeung, Yang, Liu, Zapata-Lancaster, Gabriela, Zhai, Yongchao, Zhu, Yingxin, and Zomorodian, ZahraSadat

Subjects
Thermal comfort, Thermal sensation, Thermal acceptance, Field study, Scales, Post-Occupancy-Evaluation: Climatic zone, Season, Language, Adaptation, Diversity, Engineering, Built Environment and Design, Building & Construction
Abstract

People's subjective response to any thermal environment is commonly investigated by using rating scales describing the degree of thermal sensation, comfort, and acceptability. Subsequent analyses of results collected in this way rely on the assumption that specific distances between verbal anchors placed on the scale exist and that relationships between verbal anchors from different dimensions that are assessed (e.g. thermal sensation and comfort) do not change. Another inherent assumption is that such scales are independent of the context in which they are used (climate zone, season, etc.). Despite their use worldwide, there is indication that contextual differences influence the way the scales are perceived and therefore question the reliability of the scales’ interpretation. To address this issue, a large international collaborative questionnaire study was conducted in 26 countries, using 21 different languages, which led to a dataset of 8225 questionnaires. Results, analysed by means of robust statistical techniques, revealed that only a subset of the responses are in accordance with the mentioned assumptions. Significant differences appeared between groups of participants in their perception of the scales, both in relation to distances of the anchors and relationships between scales. It was also found that respondents’ interpretations of scales changed with contextual factors, such as climate, season, and language. These findings highlight the need to carefully consider context-dependent factors in interpreting and reporting results from thermal comfort studies or post-occupancy evaluations, as well as to revisit the use of rating scales and the analysis methods used in thermal comfort studies to improve their reliability.

Published
2020

3. Publisher Correction: The Scales Project, a cross-national dataset on the interpretation of thermal perception scales.

Author

Schweiker, Marcel, Abdul-Zahra, Amar, André, Maíra, Al-Atrash, Farah, Al-Khatri, Hanan, Alprianti, Rea, Alsaad, Hayder, Amin, Rucha, Ampatzi, Eleni, Arsano, Alpha, Azadeh, Montazami, Azar, Elie, Bahareh, Bannazadeh, Batagarawa, Amina, Becker, Susanne, Buonocore, Carolina, Cao, Bin, Choi, Joon-Ho, Chun, Chungyoon, Daanen, Hein, Damiati, Siti, Daniel, Lyrian, Vecchi, Renata, Dhaka, Shivraj, Domínguez-Amarillo, Samuel, Dudkiewicz, Edyta, Edappilly, Lakshmi, Fernández-Agüera, Jesica, Folkerts, Mireille, Frijns, Arjan, Gaona, Gabriel, Garg, Vishal, Gauthier, Stephanie, Jabbari, Shahla, Harimi, Djamila, Hellwig, Runa, Huebner, Gesche, Jin, Quan, Jowkar, Mina, Kania, Renate, Kim, Jungsoo, King, Nelson, Kingma, Boris, Koerniawan, M, Kolarik, Jakub, Kumar, Shailendra, Kwok, Alison, Lamberts, Roberto, Laska, Marta, Lee, M, Lee, Yoonhee, Lindermayr, Vanessa, Mahaki, Mohammadbagher, Marcel-Okafor, Udochukwu, Marín-Restrepo, Laura, Marquardsen, Anna, Martellotta, Francesco, Mathur, Jyotirmay, McGill, Gráinne, Mino-Rodriguez, Isabel, Mou, Di, Moujalled, Bassam, Nakajima, Mia, Ng, Edward, Okafor, Marcellinus, Olweny, Mark, Ouyang, Wanlu, Papst de Abreu, Ana, Pérez-Fargallo, Alexis, Rajapaksha, Indrika, Ramos, Greici, Rashid, Saif, Reinhart, Christoph, Rivera, Ma, Salmanzadeh, Mazyar, Schakib-Ekbatan, Karin, Schiavon, Stefano, Shooshtarian, Salman, Shukuya, Masanori, Soebarto, Veronica, Tahsildoost, Mohammad, Tartarini, Federico, Teli, Despoina, Tewari, Priyam, Thapa, Samar, Trebilcock, Maureen, Trojan, Jörg, Tukur, Ruqayyatu, Voelker, Conrad, Yam, Yeung, Yang, Liu, Zapata-Lancaster, Gabriela, Zhai, Yongchao, Zhu, Yingxin, and Zomorodian, Zahra

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2020

5. The Scales Project, a cross-national dataset on the interpretation of thermal perception scales.

Author

Schweiker, Marcel, Abdul-Zahra, Amar, André, Maíra, Al-Atrash, Farah, Al-Khatri, Hanan, Alprianti, Rea, Alsaad, Hayder, Amin, Rucha, Ampatzi, Eleni, Arsano, Alpha, Azadeh, Montazami, Azar, Elie, Bahareh, Bannazadeh, Batagarawa, Amina, Becker, Susanne, Buonocore, Carolina, Cao, Bin, Choi, Joon-Ho, Chun, Chungyoon, Daanen, Hein, Damiati, Siti, Daniel, Lyrian, Vecchi, Renata, Dhaka, Shivraj, Domínguez-Amarillo, Samuel, Dudkiewicz, Edyta, Edappilly, Lakshmi, Fernández-Agüera, Jesica, Folkerts, Mireille, Frijns, Arjan, Gaona, Gabriel, Garg, Vishal, Gauthier, Stephanie, Jabbari, Shahla, Harimi, Djamila, Hellwig, Runa, Huebner, Gesche, Jin, Quan, Jowkar, Mina, Kania, Renate, Kim, Jungsoo, King, Nelson, Kingma, Boris, Koerniawan, M, Kolarik, Jakub, Kumar, Shailendra, Kwok, Alison, Lamberts, Roberto, Laska, Marta, Lee, M, Lee, Yoonhee, Lindermayr, Vanessa, Mahaki, Mohammadbagher, Marcel-Okafor, Udochukwu, Marín-Restrepo, Laura, Marquardsen, Anna, Martellotta, Francesco, Mathur, Jyotirmay, McGill, Gráinne, Mino-Rodriguez, Isabel, Mou, Di, Moujalled, Bassam, Nakajima, Mia, Ng, Edward, Okafor, Marcellinus, Olweny, Mark, Ouyang, Wanlu, Papst de Abreu, Ana, Pérez-Fargallo, Alexis, Rajapaksha, Indrika, Ramos, Greici, Rashid, Saif, Reinhart, Christoph, Rivera, Ma, Salmanzadeh, Mazyar, Schakib-Ekbatan, Karin, Schiavon, Stefano, Shooshtarian, Salman, Shukuya, Masanori, Soebarto, Veronica, Tahsildoost, Mohammad, Tartarini, Federico, Teli, Despoina, Tewari, Priyam, Thapa, Samar, Trebilcock, Maureen, Trojan, Jörg, Tukur, Ruqayyatu, Voelker, Conrad, Yam, Yeung, Yang, Liu, Zapata-Lancaster, Gabriela, Zhai, Yongchao, Zhu, Yingxin, and Zomorodian, Zahra

Abstract

Thermal discomfort is one of the main triggers for occupants interactions with components of the built environment such as adjustments of thermostats and/or opening windows and strongly related to the energy use in buildings. Understanding causes for thermal (dis-)comfort is crucial for design and operation of any type of building. The assessment of human thermal perception through rating scales, for example in post-occupancy studies, has been applied for several decades; however, long-existing assumptions related to these rating scales had been questioned by several researchers. The aim of this study was to gain deeper knowledge on contextual influences on the interpretation of thermal perception scales and their verbal anchors by survey participants. A questionnaire was designed and consequently applied in 21 language versions. These surveys were conducted in 57 cities in 30 countries resulting in a dataset containing responses from 8225 participants. The database offers potential for further analysis in the areas of building design and operation, psycho-physical relationships between human perception and the built environment, and linguistic analyses.

Published
2019

8. Overheating in Schools: Factors Determining Children’s Perceptions of Overall Comfort Indoors

Author

Diseño de Instalaciones y Montajes de Arquitectura, Domínguez-Amarillo, Samuel [0000-0002-9177-8736], Fernández-Agüera, Jesica [0000-0002-0082-3627], Cuerdo-Vilches, Teresa [0000-0003-1251-4693], Domínguez-Amarillo, Samuel, Fernández-Agüera, Jesica, Minaksi González, Maella, Cuerdo-Vilches, Teresa, Diseño de Instalaciones y Montajes de Arquitectura, Domínguez-Amarillo, Samuel [0000-0002-9177-8736], Fernández-Agüera, Jesica [0000-0002-0082-3627], Cuerdo-Vilches, Teresa [0000-0003-1251-4693], Domínguez-Amarillo, Samuel, Fernández-Agüera, Jesica, Minaksi González, Maella, and Cuerdo-Vilches, Teresa

Abstract

Climate change is raising the length and intensity of the warm season in the academic year, with a very significant impact on indoor classroom conditions. Increasingly frequent episodes of extreme heat are having an adverse effect on school activities, whose duration may have to be shortened or pace slackened. Fitting facilities with air conditioning does not always solve the problem and may even contribute to discomfort or worsen health conditions, often as a result of insufficient ventilation. Users have traditionally adopted measures to adapt to these situations, particularly in warm climates where mechanical refrigeration is absent or unavailable. Implementation of such measures or of natural ventilation is not always possible or their efficacy is limited in school environments, however. Such constraints, especially in a context where reasonable energy use and operating costs are a primary concern, inform the need to identify the factors that contribute to users’ perceptions of comfort. This study deploys a post-occupancy strategy combined with participatory action to empower occupants as agents actively engaging in their own comfort. It addresses user-identified classroom comfort parameters potentially applicable in the design and layout of thermally suitable spaces meriting occupant acceptance.

Published
2020

9. Methodology for the Study of the Envelope Airtightness of Residential Buildings in Spain: A Case Study

Author

Feijó-Muñoz Jesús, Poza-Casado Irene, González-Lezcano Roberto Alonso, Pardal Cristina, Echarri Víctor, Assiego de Larriva Rafael, Fernández-Agüera Jesica, Dios-Viéitez María Jesús, del Campo-Díaz Víctor José, Montesdeoca Calderín Manuel, Padilla-Marcos Miguel Ángel, and Meiss Alberto

Subjects
infiltrations, airtightness of the envelope, blower door test, residential buildings, Technology
Abstract

Air leakage and its impact on the energy performance of dwellings has been broadly studied in countries with cold climates in Europe, US, and Canada. However, there is a lack of knowledge in this field in Mediterranean countries. Current Spanish building regulations establish ventilation rates based on ideal airtight envelopes, causing problems of over-ventilation and substantial energy losses. The aim of this paper is to develop a methodology that allows the characterization of the envelope of the housing stock in Spain in order to adjust ventilation rates taking into consideration air leakage. A methodology that is easily applicable to other countries that consider studying the airtightness of the envelope and its energetic behaviour improvement is proposed. A statistical sampling method has been established to determine the dwellings to be tested, considering relevant variables concerning airtightness: climate zone, year of construction, and typology. The air leakage rate is determined using a standardized building pressurization technique according to European Standard EN 13829. A representative case study has been presented as an example of the implementation of the designed methodology and results are compared to preliminary values obtained from the database.

Published
2018
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11. Erratum: Publisher Correction: The Scales Project, a cross-national dataset on the interpretation of thermal perception scales (Scientific data (2019) 6 1 (289))

Author

Schweiker, Marcel, Abdul-Zahra, Amar, André, Maíra, Al-Atrash, Farah, Al-Khatri, Hanan, Alprianti, Rea Risky, Alsaad, Hayder, Amin, Rucha, Ampatzi, Eleni, Arsano, Alpha Yacob, Azadeh, Montazami, Azar, Elie, Bahareh, Bannazadeh, Batagarawa, Amina, Becker, Susanne, Buonocore, Carolina, Cao, Bin, Choi, Joon Ho, Chun, Chungyoon, Daanen, Hein, Damiati, Siti Aisyah, Daniel, Lyrian, Vecchi, Renata De, Dhaka, Shivraj, Domínguez-Amarillo, Samuel, Dudkiewicz, Edyta, Edappilly, Lakshmi Prabha, Fernández-Agüera, Jesica, Folkerts, Mireille, Frijns, Arjan, Gaona, Gabriel, Garg, Vishal, Gauthier, Stephanie, Jabbari, Shahla Ghaffari, Harimi, Djamila, Hellwig, Runa T., Huebner, Gesche M., Jin, Quan, Jowkar, Mina, Kania, Renate, Kim, Jungsoo, King, Nelson, Kingma, Boris, Koerniawan, M. Donny, Kolarik, Jakub, Kumar, Shailendra, Kwok, Alison, Lamberts, Roberto, Laska, Marta, Lee, M. C.Jeffrey, Lee, Yoonhee, Lindermayr, Vanessa, Mahaki, Mohammadbagher, Marcel-Okafor, Udochukwu, Marín-Restrepo, Laura, Marquardsen, Anna, Martellotta, Francesco, Mathur, Jyotirmay, McGill, Gráinne, Mino-Rodriguez, Isabel, Mou, Di, Moujalled, Bassam, Nakajima, Mia, Ng, Edward, Okafor, Marcellinus, Olweny, Mark, Ouyang, Wanlu, Papst de Abreu, Ana Ligia, Pérez-Fargallo, Alexis, Rajapaksha, Indrika, Ramos, Greici, Rashid, Saif, Reinhart, Christoph F., Rivera, Ma Isabel, Salmanzadeh, Mazyar, Schakib-Ekbatan, Karin, Schiavon, Stefano, Shooshtarian, Salman, Shukuya, Masanori, Soebarto, Veronica, Suhendri, Tahsildoost, Mohammad, Tartarini, Federico, Teli, Despoina, Tewari, Priyam, Thapa, Samar, Trebilcock, Maureen, Trojan, Jörg, Tukur, Ruqayyatu B., Voelker, Conrad, Yam, Yeung, Yang, Liu, Zapata-Lancaster, Gabriela, Zhai, Yongchao, Zhu, Yingxin, Zomorodian, Zahra Sadat, Physiology, and Amsterdam Movement Sciences

Subjects
SDG 16 - Peace, SDG 16 - Peace, Justice and Strong Institutions, Justice and Strong Institutions
Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2020
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15. Evaluating assumptions of scales for subjective assessment of thermal environments – Do laypersons perceive them the way, we researchers believe?

Author

Schweiker, Marcel, primary, André, Maíra, additional, Al-Atrash, Farah, additional, Al-Khatri, Hanan, additional, Alprianti, Rea Risky, additional, Alsaad, Hayder, additional, Amin, Rucha, additional, Ampatzi, Eleni, additional, Arsano, Alpha Yacob, additional, Azar, Elie, additional, Bannazadeh, Bahareh, additional, Batagarawa, Amina, additional, Becker, Susanne, additional, Buonocore, Carolina, additional, Cao, Bin, additional, Choi, Joon-Ho, additional, Chun, Chungyoon, additional, Daanen, Hein, additional, Damiati, Siti Aisyah, additional, Daniel, Lyrian, additional, De Vecchi, Renata, additional, Dhaka, Shivraj, additional, Domínguez-Amarillo, Samuel, additional, Dudkiewicz, Edyta, additional, Edappilly, Lakshmi Prabha, additional, Fernández-Agüera, Jesica, additional, Folkerts, Mireille, additional, Frijns, Arjan, additional, Gaona, Gabriel, additional, Garg, Vishal, additional, Gauthier, Stephanie, additional, Jabbari, Shahla Ghaffari, additional, Harimi, Djamila, additional, Hellwig, Runa T., additional, Huebner, Gesche M, additional, Jin, Quan, additional, Jowkar, Mina, additional, Kim, Jungsoo, additional, King, Nelson, additional, Kingma, Boris, additional, Koerniawan, M. Donny, additional, Kolarik, Jakub, additional, Kumar, Shailendra, additional, Kwok, Alison, additional, Lamberts, Roberto, additional, Laska, Marta, additional, Lee, M.C. Jeffrey, additional, Lee, Yoonhee, additional, Lindermayr, Vanessa, additional, Mahaki, Mohammadbagher, additional, Marcel-Okafor, Udochukwu, additional, Marín-Restrepo, Laura, additional, Marquardsen, Anna, additional, Martellotta, Francesco, additional, Mathur, Jyotirmay, additional, Mino-Rodriguez, Isabel, additional, Montazami, Azadeh, additional, Mou, Di, additional, Moujalled, Bassam, additional, Nakajima, Mia, additional, Ng, Edward, additional, Okafor, Marcellinus, additional, Olweny, Mark, additional, Ouyang, Wanlu, additional, Papst de Abreu, Ana Lígia, additional, Pérez-Fargallo, Alexis, additional, Rajapaksha, Indrika, additional, Ramos, Greici, additional, Rashid, Saif, additional, Reinhart, Christoph F., additional, Rivera, Ma. Isabel, additional, Salmanzadeh, Mazyar, additional, Schakib-Ekbatan, Karin, additional, Schiavon, Stefano, additional, Shooshtarian, Salman, additional, Shukuya, Masanori, additional, Soebarto, Veronica, additional, Suhendri, Suhendri, additional, Tahsildoost, Mohammad, additional, Tartarini, Federico, additional, Teli, Despoina, additional, Tewari, Priyam, additional, Thapa, Samar, additional, Trebilcock, Maureen, additional, Trojan, Jörg, additional, Tukur, Ruqayyatu B., additional, Voelker, Conrad, additional, Yam, Yeung, additional, Yang, Liu, additional, Zapata-Lancaster, Gabriela, additional, Zhai, Yongchao, additional, Zhu, Yingxin, additional, and Zomorodian, ZahraSadat, additional

Published
2020
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17. The Scales Project, a cross-national dataset on the interpretation of thermal perception scales : [Data descriptor]

Author

Schweiker, Marcel, Abdul-Zahra, Amar, André, Maíra, Al-Atrash, Farah, Al-Khatri, Hanan, Alprianti, Rea Risky, Alsaad, Hayder, Amin, Rucha, Ampatzi, Eleni, Arsano, Alpha Yacob, Azadeh, Montazami, Azar, Elie, Bahareh, Bannazadeh, Batagarawa, Amina, Becker, Susanne, Buonocore, Carolina, Cao, Bin, Choi, Joon-Ho, Chun, Chungyoon, Daanen, Hein, Damiati, Siti Aisyah, Daniel, Lyrian, Vecchi, Renata De, Dhaka, Shivraj, Domínguez-Amarillo, Samuel, Dudkiewicz, Edyta, Edappilly, Lakshmi Prabha, Fernández-Agüera, Jesica, Folkerts, Mireille, Frijns, Arjan, Gaona, Gabriel, Garg, Vishal, Gauthier, Stephanie, Jabbari, Shahla Ghaffari, Harimi, Djamila, Hellwig, Runa T., Huebner, Gesche M., Jin, Quan, Jowkar, Mina, Kania, Renate, Kim, Jungsoo, King, Nelson, Kingma, Boris, Koerniawan, M. Donny, Kolarik, Jakub, Kumar, Shailendra, Kwok, Alison, Lamberts, Roberto, Laska, Marta, Lee, M. C. Jeffrey, Lee, Yoonhee, Lindermayr, Vanessa, Mahaki, Mohammadbagher, Marcel-Okafor, Udochukwu, Marín-Restrepo, Laura, Marquardsen, Anna, Martellotta, Francesco, Mathur, Jyotirmay, McGill, Gráinne, Mino-Rodriguez, Isabel, Mou, Di, Moujalled, Bassam, Nakajima, Mia, Ng, Edward, Okafor, Marcellinus, Olweny, Mark, Ouyang, Wanlu, Papst de Abreu, Ana Ligia, Pérez-Fargallo, Alexis, Rajapaksha, Indrika, Ramos, Greici, Rashid, Saif, Reinhart, Christoph F., Rivera, Ma. Isabel, Salmanzadeh, Mazyar, Schakib-Ekbatan, Karin, Schiavon, Stefano, Shooshtarian, Salman, Shukuya, Masanori, Soebarto, Veronica, [Unknown], Suhendri, Tahsildoost, Mohammad, Tartarini, Federico, Teli, Despoina, Tewari, Priyam, Thapa, Samar, Trebilcock, Maureen, Trojan, Jörg, Tukur, Ruqayyatu B., Voelker, Conrad, Yam, Yeung, Yang, Liu, Zapata-Lancaster, Gabriela, Zhai, Yongchao, Zhu, Yingxin, and Zomorodian, Zahra Sadat

Subjects
TH
Abstract

Thermal discomfort is one of the main triggers for occupants’ interactions with components of the built environment such as adjustments of thermostats and/or opening windows and strongly related to the energy use in buildings. Understanding causes for thermal (dis-)comfort is crucial for design and operation of any type of building. The assessment of human thermal perception through rating scales, for example in post-occupancy studies, has been applied for several decades; however, long-existing assumptions related to these rating scales had been questioned by several researchers. The aim of this study was to gain deeper knowledge on contextual influences on the interpretation of thermal perception scales and their verbal anchors by survey participants. A questionnaire was designed and consequently applied in 21 language versions. These surveys were conducted in 57 cities in 30 countries resulting in a dataset containing responses from 8225 participants. The database offers potential for further analysis in the areas of building design and operation, psycho-physical relationships between human perception and the built environment, and linguistic analyses.

Published
2019

18. Energy impact of the air infiltration in residential buildings in the Mediterranean area of Spain and the Canary islands

Author

Universidad de Alicante. Departamento de Construcciones Arquitectónicas, Feijó-Muñoz, Jesús, Pardal, Cristina, Echarri-Iribarren, Víctor, Fernández-Agüera, Jesica, Assiego de Larriva, Rafael, Montesdeoca Calderín, Manuel, Poza-Casado, Irene, Padilla-Marcos, Miguel Ángel, Meiss, Alberto, Universidad de Alicante. Departamento de Construcciones Arquitectónicas, Feijó-Muñoz, Jesús, Pardal, Cristina, Echarri-Iribarren, Víctor, Fernández-Agüera, Jesica, Assiego de Larriva, Rafael, Montesdeoca Calderín, Manuel, Poza-Casado, Irene, Padilla-Marcos, Miguel Ángel, and Meiss, Alberto

Abstract

Air infiltration through the building envelope has already been proven to have a significant energy impact in dwellings. Different studies have been carried out in Europe, but there is still a lack of knowledge in this field regarding mild climates. An experimental field study has been carried out in the Mediterranean climate area of Spain and the Canary Islands in order to assess the air permeability of the building envelope and its energy impact. A wide characterization and Blower Door tests have been performed in 225 cases in Alicante, Barcelona, Málaga, Sevilla and Las Palmas de Gran Canaria for this purpose. The obtained mean air permeability rate for the 225 studied cases was 6.56 m3/(h·m2). The influence of several variables on airtightness was statistically analysed, although only location, climate zone and window material were found to be significant. Air infiltration has an energy impact between 2.43 and 16.44 kWh/m2·year on the heating demand and between 0.54 and 3.06 kWh/m2·year on the cooling demand.

Published
2019

19. Thermal comfort and indoor air quality in low-income housing in Spain: The influence of airtightness and occupant behaviour

Author

Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), Agencia Estatal de Investigación (España), Fernández-Agüera, Jesica, Domínguez-Amarillo, Samuel, Alonso, Carmen, Martín-Consuegra, Fernando, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), Agencia Estatal de Investigación (España), Fernández-Agüera, Jesica, Domínguez-Amarillo, Samuel, Alonso, Carmen, and Martín-Consuegra, Fernando

Abstract

Thermal comfort and Indoor air quality (IAQ) in residential buildings with different degrees of airtightness was studied in two climates in Spain. Behaviour was compared in the areas occupied by day and by night. The IAQ of the buildings studied, erected before energy efficiency regulations were in place (1939–79) and lacking mechanical ventilation, was compared to their airtightness. The rationale for that approach was that under such circumstances air change depends on uncontrolled natural ventilation (=opening windows) and consequently on the outdoor temperature. Relative humidity was also taken into consideration, given the condensation that may be induced where ventilation is insufficient. In winter in both climates, the CO2 levels were over 1200 ppm, with means on the order of 1900 ppm in Madrid and 1400 ppm in Seville and higher at night than during the day. Infiltration-mediated air changes/hour appeared to be insufficient to maintain the house under healthy conditions and the risk of surface condensation is higher in the most airtight dwellings.

Published
2019

20. Social housing airtightness in Southern Europe

Author

Ministerio de Economía y Competitividad (España), Universidad de Sevilla, Fernández-Agüera, Jesica, Domínguez-Amarillo, Samuel, Sendra, Juan José, Suárez, Rafael, Oteiza San José, Ignacio, Ministerio de Economía y Competitividad (España), Universidad de Sevilla, Fernández-Agüera, Jesica, Domínguez-Amarillo, Samuel, Sendra, Juan José, Suárez, Rafael, and Oteiza San José, Ignacio

Abstract

An extensive airtightness measurement has been carried out on 159 social housing units built in southern Spain. The sample includes homes from multifamily buildings built since the origin of social housing models in 1950, through to the most recent examples developed under EPBD compliance requirements. Testing was developed between 2012–2017 using the standardised Blower Door pressurisation technique. The main purpose of this research is to present a wide-ranging, exhaustive study on the airtightness performance of social housing built in southern Spain; these properties are representative of other locations in southern Europe due to both to their climate conditions and their socio-economic and cultural component. The general performance of the housing stock in terms of normalised permeability at 50 Pa shows a mean value of 7 h−1, similar to that found in other areas in Southern Europe, although with very significant variability between properties which are airtight and those which are highly permeable, all within a housing stock which is similar in terms of type and construction. Based on this information, it has been possible to develop a representative probabilistic description of the housing stock. The study provides useful information on the influence climatic location of buildings as well as age and other and other morphological and constructive parameters of residential buildings.

Published
2019

21. Airtightness assessment of social housing in southern Spain

Author

Fernández-Agüera, Jesica, Oteiza San José, Ignacio de, Sendra, Juan J., Suárez, Rafael, Universidad de Sevilla. Departamento de Construcciones Arquitectónicas I (ETSA), Oteiza San José, Ignacio, Sendra, Juan José, and Ministerio de Economía y Competitividad (España)

Abstract

Hygrothermal comfort, indoor air quality and energy consumption depend to a large extent on the airtightness of a property's envelope. While individual single-family properties have been extensively researched over the last three decades in northern Europe, the United States and Canada, there is only limited information on airtightness in multi-occupancy buildings in temperate climates. This thesis aims to characterise the airtight performance of envelopes in social housing stock in Andalusia from 1950 onwards, assessing impact on both energy and indoor air quality. Completing the work has required one hundred and fifty-nine pressurisation and depressurisation tests, in accordance with the procedure described in Standard UNE 13829:2002, as well as test protocols specifically adapted to the characterisation of the air infiltration performance of multi-occupancy residential buildings. These data are supplemented by a range of tests to check the location of the air ingress paths in the envelope of buildings under different conditions. Simultaneously, the most common envelopes and morphologies representing this housing stock have been identified and analysed. The surveys of the buildings are complemented by monitoring of a group of carefully-selected case studies to gather information on the evolution of their environmental variables: temperature, humidity, CO2, TVOC and PM2.5. These tests have made it possible to statistically analyse the main parameters associated with airtightness and to search for relationships with the construction and morphological characteristics of the properties. The work proposes two predictive airtightness models based on the specific characteristics of each property and building, a first model adapted to the characteristics of the properties built before basic standard NBE CT79 came into force, and a second model focused on properties constructed after this date. These models have a high degree of uncertainty associated with the dispersion of results, due to the random component of traditional construction, even in buildings with common characteristics and types of construction. Notwithstanding, the values recorded for airtightness are consistent with the findings of other tests in southern Europe, which place the stock in an intermediate situation. This characterisation is used to define a series of energy models for the properties under study, in order to assess the impact of airtightness on energy demand, both overall and seasonally, and its potential for reduction. The results show that the lack of ventilation means there is high exposure to pollutants during the cold season, causing unsuitable indoor environments, especially in the most hermetic properties. The increase in airtightness rate has most effect on properties built after NBE CT79 came into force, with the overall sample analysed requiring a balance between energy saving requirements and ability to renew the indoor atmosphere., Ministerio de Economía y Competitividad (España).

Published
2018

33. Methodology for the study of the envelope airtightness of residential buildings in Spain: A case study

Author

Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Empleo y Seguridad Social (España), Feijó-Muñoz, Jesús, Poza-Casado, Irene, Alonso González-Lezcano, Roberto, Pardal, Cristina, Echarri, Víctor, Assiego De Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Campo-Díaz, Víctor José del, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, Meiss, Alberto, Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Empleo y Seguridad Social (España), Feijó-Muñoz, Jesús, Poza-Casado, Irene, Alonso González-Lezcano, Roberto, Pardal, Cristina, Echarri, Víctor, Assiego De Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Campo-Díaz, Víctor José del, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, and Meiss, Alberto

Abstract

Air leakage and its impact on the energy performance of dwellings has been broadly studied in countries with cold climates in Europe, US, and Canada. However, there is a lack of knowledge in this field in Mediterranean countries. Current Spanish building regulations establish ventilation rates based on ideal airtight envelopes, causing problems of over-ventilation and substantial energy losses. The aim of this paper is to develop a methodology that allows the characterization of the envelope of the housing stock in Spain in order to adjust ventilation rates taking into consideration air leakage. A methodology that is easily applicable to other countries that consider studying the airtightness of the envelope and its energetic behaviour improvement is proposed. A statistical sampling method has been established to determine the dwellings to be tested, considering relevant variables concerning airtightness: climate zone, year of construction, and typology. The air leakage rate is determined using a standardized building pressurization technique according to European Standard EN 13829. A representative case study has been presented as an example of the implementation of the designed methodology and results are compared to preliminary values obtained from the database.

Published
2018

34. Methodology for the Study of the Envelope Airtightness of Residential Buildings in Spain: A Case Study

Author

Máquinas y motores térmicos, Makina eta motor termikoak, Feijó-Muñoz, Jesús, Poza-Casado, Irene, González-Lezcano, Roberto Alonso, Pardal, Cristina, Echarri, Víctor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Del Campo Díaz, Víctor José, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, Meiss, Alberto, Máquinas y motores térmicos, Makina eta motor termikoak, Feijó-Muñoz, Jesús, Poza-Casado, Irene, González-Lezcano, Roberto Alonso, Pardal, Cristina, Echarri, Víctor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Del Campo Díaz, Víctor José, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, and Meiss, Alberto

Abstract

Air leakage and its impact on the energy performance of dwellings has been broadly studied in countries with cold climates in Europe, US, and Canada. However, there is a lack of knowledge in this field in Mediterranean countries. Current Spanish building regulations establish ventilation rates based on ideal airtight envelopes, causing problems of over-ventilation and substantial energy losses. The aim of this paper is to develop a methodology that allows the characterization of the envelope of the housing stock in Spain in order to adjust ventilation rates taking into consideration air leakage. A methodology that is easily applicable to other countries that consider studying the airtightness of the envelope and its energetic behaviour improvement is proposed. A statistical sampling method has been established to determine the dwellings to be tested, considering relevant variables concerning airtightness: climate zone, year of construction, and typology. The air leakage rate is determined using a standardized building pressurization technique according to European Standard EN 13829. A representative case study has been presented as an example of the implementation of the designed methodology and results are compared to preliminary values obtained from the database.

Published
2018

35. Methodology for the Study of the Envelope Airtightness of Residential Buildings in Spain: A Case Study

Author

Universidad de Alicante. Departamento de Construcciones Arquitectónicas, Feijó-Muñoz, Jesús, Poza-Casado, Irene, González-Lezcano, Roberto Alonso, Pardal, Cristina, Echarri-Iribarren, Víctor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Campo-Díaz, Víctor José del, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, Meiss, Alberto, Universidad de Alicante. Departamento de Construcciones Arquitectónicas, Feijó-Muñoz, Jesús, Poza-Casado, Irene, González-Lezcano, Roberto Alonso, Pardal, Cristina, Echarri-Iribarren, Víctor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Campo-Díaz, Víctor José del, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, and Meiss, Alberto

Abstract

Air leakage and its impact on the energy performance of dwellings has been broadly studied in countries with cold climates in Europe, US, and Canada. However, there is a lack of knowledge in this field in Mediterranean countries. Current Spanish building regulations establish ventilation rates based on ideal airtight envelopes, causing problems of over-ventilation and substantial energy losses. The aim of this paper is to develop a methodology that allows the characterization of the envelope of the housing stock in Spain in order to adjust ventilation rates taking into consideration air leakage. A methodology that is easily applicable to other countries that consider studying the airtightness of the envelope and its energetic behaviour improvement is proposed. A statistical sampling method has been established to determine the dwellings to be tested, considering relevant variables concerning airtightness: climate zone, year of construction, and typology. The air leakage rate is determined using a standardized building pressurization technique according to European Standard EN 13829. A representative case study has been presented as an example of the implementation of the designed methodology and results are compared to preliminary values obtained from the database.

Published
2018

36. Methodology for the study of the envelope airtightness of residential buildings in Spain: a case study

Author

Universitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura, Universitat Politècnica de Catalunya. AIEM - Arquitectura, energia i medi ambient, Feijó Muñoz, Jesús, Poza Casado, Irene, González Lezcano, Roberto Alonso, Pardal March, Cristina, Echarri, Victor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, del Campo-Díaz, Víctor José, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, Meiss, Alberto, Universitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura, Universitat Politècnica de Catalunya. AIEM - Arquitectura, energia i medi ambient, Feijó Muñoz, Jesús, Poza Casado, Irene, González Lezcano, Roberto Alonso, Pardal March, Cristina, Echarri, Victor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, del Campo-Díaz, Víctor José, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, and Meiss, Alberto

Abstract

Air leakage and its impact on the energy performance of dwellings has been broadly studied in countries with cold climates in Europe, US, and Canada. However, there is a lack of knowledge in this field in Mediterranean countries. Current Spanish building regulations establish ventilation rates based on ideal airtight envelopes, causing problems of over-ventilation and substantial energy losses. The aim of this paper is to develop a methodology that allows the characterization of the envelope of the housing stock in Spain in order to adjust ventilation rates taking into consideration air leakage. A methodology that is easily applicable to other countries that consider studying the airtightness of the envelope and its energetic behaviour improvement is proposed. A statistical sampling method has been established to determine the dwellings to be tested, considering relevant variables concerning airtightness: climate zone, year of construction, and typology. The air leakage rate is determined using a standardized building pressurization technique according to European Standard EN 13829. A representative case study has been presented as an example of the implementation of the designed methodology and results are compared to preliminary values obtained from the database., Postprint (published version)

Published
2018

37. Caracterización de la estanqueidad al aire de la vivienda social en Andalucía

Author

Oteiza San José, Ignacio, Sendra, Juan José, Suárez, Rafael, Ministerio de Economía y Competitividad (España), Fernández-Agüera, Jesica, Oteiza San José, Ignacio, Sendra, Juan José, Suárez, Rafael, Ministerio de Economía y Competitividad (España), and Fernández-Agüera, Jesica

Abstract

Hygrothermal comfort, indoor air quality and energy consumption depend to a large extent on the airtightness of a property's envelope. While individual single-family properties have been extensively researched over the last three decades in northern Europe, the United States and Canada, there is only limited information on airtightness in multi-occupancy buildings in temperate climates. This thesis aims to characterise the airtight performance of envelopes in social housing stock in Andalusia from 1950 onwards, assessing impact on both energy and indoor air quality. Completing the work has required one hundred and fifty-nine pressurisation and depressurisation tests, in accordance with the procedure described in Standard UNE 13829:2002, as well as test protocols specifically adapted to the characterisation of the air infiltration performance of multi-occupancy residential buildings. These data are supplemented by a range of tests to check the location of the air ingress paths in the envelope of buildings under different conditions. Simultaneously, the most common envelopes and morphologies representing this housing stock have been identified and analysed. The surveys of the buildings are complemented by monitoring of a group of carefully-selected case studies to gather information on the evolution of their environmental variables: temperature, humidity, CO2, TVOC and PM2.5. These tests have made it possible to statistically analyse the main parameters associated with airtightness and to search for relationships with the construction and morphological characteristics of the properties. The work proposes two predictive airtightness models based on the specific characteristics of each property and building, a first model adapted to the characteristics of the properties built before basic standard NBE CT79 came into force, and a second model focused on properties constructed after this date. These models have a high degree of uncertainty associated with the dispersion o

Published
2018

38. Teaching innovation and the use of social networks in architecture: Learning building services design for smart and energy efficient buildings

Author

Domínguez-Amarillo, Samuel, Fernández-Agüera, Jesica, Fernández-Agüera, Patricia, Domínguez-Amarillo, Samuel, Fernández-Agüera, Jesica, and Fernández-Agüera, Patricia

Abstract

Today’s buildings are evolving from structures comprising unchanging, static elements scantly able to interact with their surroundings, towards complex systemic compounds with an impact on the environs that entails more than mere anthropic alteration. In pursuit of energy efficiency and true sustainability, buildings must acquire the ability to interact as well as to generate synergies. The most prominent features of this approach are energy management and information flows which, intelligently designed, not only enhance buildings’ capabilities, but also introduce a significant change in their relationship with the surrounds (‘smart cities’) and its inhabitants. This new paradigm calls for revisiting undergraduate architectural instruction, adopting a more complex overview of energy use and management in the design process, regarding buildings as dynamic rather than static entities. The methodology focuses on creating learning environments that favour students’ participation in problem solving and assessment, encouraging teamwork based on case studies and stressing the connection between this new architecture, ICTs included, and social networks as participatory design tools. These ideas were implemented in a pilot learning experience conducted at the University of Seville for undergraduate students. The use of ICTs and the collaboration of non-academic experts were observed to further student promotion and projection beyond the academic environment and introduce them to the professional community.

Published
2018

39. Methodology for the Study of the Envelope Airtightness of Residential Buildings in Spain: A Case Study

Author

Feijó-Muñoz, Jesús, Poza-Casado, Irene, González-Lezcano, Roberto Alonso, Pardal, Cristina, Echarri, Víctor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Del Campo-Díaz, Víctor José, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, Meiss, Alberto, Feijó-Muñoz, Jesús, Poza-Casado, Irene, González-Lezcano, Roberto Alonso, Pardal, Cristina, Echarri, Víctor, Assiego de Larriva, Rafael, Fernández-Agüera, Jesica, Dios-Viéitez, María Jesús, Del Campo-Díaz, Víctor José, Montesdeoca Calderín, Manuel, Padilla-Marcos, Miguel Ángel, and Meiss, Alberto

Abstract

[Abstract] Air leakage and its impact on the energy performance of dwellings has been broadly studied in countries with cold climates in Europe, US, and Canada. However, there is a lack of knowledge in this field in Mediterranean countries. Current Spanish building regulations establish ventilation rates based on ideal airtight envelopes, causing problems of over-ventilation and substantial energy losses. The aim of this paper is to develop a methodology that allows the characterization of the envelope of the housing stock in Spain in order to adjust ventilation rates taking into consideration air leakage. A methodology that is easily applicable to other countries that consider studying the airtightness of the envelope and its energetic behaviour improvement is proposed. A statistical sampling method has been established to determine the dwellings to be tested, considering relevant variables concerning airtightness: climate zone, year of construction, and typology. The air leakage rate is determined using a standardized building pressurization technique according to European Standard EN 13829. A representative case study has been presented as an example of the implementation of the designed methodology and results are compared to preliminary values obtained from the database.

Published
2018

40. Energy related practices in Mediterranean low-income housing.

Author

Domínguez-Amarillo, Samuel, Fernández-Agüera, Jesica, Peacock, Andrew, and Acosta, Ignacio

Subjects
LOW-income housing, HOUSING policy, RESIDENTIAL energy conservation, HOUSEHOLD appliances, COMPUTER equipment, HOUSING, ENERGY consumption
Abstract

The development of policies to improve energy efficiency and the retrofitting of the existing housing stock requires adequate knowledge of the operation in practice and user needs. This becomes crucial when intervening in social housing, where household energy practices are likely to be confounded by energy affordability leading to outcomes that are distinct and sub-optimal when compared to those conventionally assumed. A field survey and analyses applied to more than 700 homes from collective social housing buildings in the south of Spain is reported here. The results show a clear stratification of energy consumption and ownership of household appliances and thermal systems. An austere self-imposed use of energy appears, coupled with normative adoption of certain energy-efficient habits particularly with respect to laundry. An emergence of multimedia and computer equipment seems to be changing the overall balance of use of equipment in homes. A clear income level above which provision of thermal comfort using mechanical means became affordable was found. The work provides useful data of home habits and identifies the main underperformance issues of this representative household-group, what may feed the design of upgrade policies and optimization of energy access for this housing stock. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
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46. Protocols for Measuring the Airtightness of Multi-Dwelling Units in Southern Europe.

Author

Fernández-Agüera, Jesica, Sendra, Juan José, and Domínguez, Samuel

Abstract

Abstract: The airtightness of building envelopes is one of the factors which most affects the hygrothermal conditions and the air quality of the indoor environment, as well as the energy consumption of the building. In multi-dwelling units this contributes significantly to the overall load for heating or air conditioning, making it possible to calculate the repercussion of infiltrations on the energy demand of a dwelling as between 20 to 50% of the total amount, depending on the climate zone and construction characteristics of the envelope. Hence the importance of knowing the parameters that characterise it. Pressurisation/depressurisation tests are the best method for characterisig these, butmust be carried out in accordance with specific measurement procedures. The main objective of this paper is the proposal of five specific protocols for carrying out these tests in MDU, and their specific use in buildings in Southern European regions. In order to develop and validate this proposal we have carried out a series of multi test in ten dwelling units in a block recently built in the south of Spain. The results of these tests are presented and analysed here. These confirm the need for some protocols to distinguish between wet and dry spaces within the dwelling, given the difference in airtightness between them, and to expand the study indicators proposed by international regulations for a more accurate rendering of the behaviour of the envelope and the elements within it. [Copyright &y& Elsevier]

Published
2012
Full Text
View/download PDF

47. Overheating in Schools: Factors Determining Children’s Perceptions of Overall Comfort Indoors

Author

Jesica Fernández-Agüera, Maella Minaksi González, Teresa Cuerdo-Vilches, Samuel Domínguez-Amarillo, Universidad de Sevilla. Departamento de Construcciones Arquitectónicas I., Diseño de Instalaciones y Montajes de Arquitectura, Domínguez-Amarillo, Samuel [0000-0002-9177-8736], Fernández-Agüera, Jesica [0000-0002-0082-3627], Cuerdo-Vilches, Teresa [0000-0003-1251-4693], Domínguez-Amarillo, Samuel, Fernández-Agüera, Jesica, and Cuerdo-Vilches, Teresa

Subjects
thermal comfort, 020209 energy, media_common.quotation_subject, Geography, Planning and Development, lcsh:TJ807-830, education, lcsh:Renewable energy sources, 02 engineering and technology, schools, 010501 environmental sciences, Management, Monitoring, Policy and Law, heat perception, user’s perception, qualitative technique, POE, User’s perception, 01 natural sciences, Extreme heat, Perception, 0202 electrical engineering, electronic engineering, information engineering, Overheating (electricity), lcsh:Environmental sciences, 0105 earth and related environmental sciences, media_common, Pace, lcsh:GE1-350, Academic year, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Environmental effects of industries and plants, Thermal comfort, Natural ventilation, Environmental economics, lcsh:TD194-195, Air conditioning, user's perception, business, Psychology
Abstract

Climate change is raising the length and intensity of the warm season in the academic year, with a very significant impact on indoor classroom conditions. Increasingly frequent episodes of extreme heat are having an adverse effect on school activities, whose duration may have to be shortened or pace slackened. Fitting facilities with air conditioning does not always solve the problem and may even contribute to discomfort or worsen health conditions, often as a result of insufficient ventilation. Users have traditionally adopted measures to adapt to these situations, particularly in warm climates where mechanical refrigeration is absent or unavailable. Implementation of such measures or of natural ventilation is not always possible or their efficacy is limited in school environments, however. Such constraints, especially in a context where reasonable energy use and operating costs are a primary concern, inform the need to identify the factors that contribute to users’ perceptions of comfort. This study deploys a post-occupancy strategy combined with participatory action to empower occupants as agents actively engaging in their own comfort. It addresses user-identified classroom comfort parameters potentially applicable in the design and layout of thermally suitable spaces meriting occupant acceptance., This research was funded by Data collection and study for the development of an Energy Efficiency Assessment Prototype of Active Participation Pilot Centers, grant number 3620/0451

Published
2020

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