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--- planning:refurbishment_with_passive_house_components:living_quality_monitoring [2024/10/25 12:10] – [Simplification of data analysis] yaling.hsiao@passiv.de
+++ planning:refurbishment_with_passive_house_components:living_quality_monitoring [2024/10/30 10:43] (current) – [See also] yaling.hsiao@passiv.de
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 ======  Living Quality Monitoring ======
-Author: Rainer Pfluger, Sascha Hammes, Jan Steiger, Wolfgang Hasper
+//Author: Rainer Pfluger, Sascha Hammes, Jan Steiger, Wolfgang Hasper//
 Living Quality Monitoring can be used to monitor the success and quality assurance of renovation measures. It also provides learning opportunities for future projects and planning.
@@ Line 57: / Line 57: @@
 Microbiological samples allow the identification and quantification of specific bacterial and fungal species and their concentrations, identifying potential health risks that conventional sensors for temperature, humidity, CO2 and VOC levels do not detect. These samples are an important part of indoor air quality assessment and provide valuable information on the health and safety of indoor environments. They also support the development of effective operational and remediation strategies. Mold, which is often caused by high humidity due to inadequate ventilation, is a significant health risk. The outPHit research project was able to highlight the importance of mechanical ventilation and high energy efficiency standards to prevent mold growth and meet comfort and health requirements (see D6.12 report on microbiological assessment of indoor air quality in case study projects [outPHit D6.12]).
-{{ :picopen:living_quality_04.png?400 |}}
+{{ :picopen:living_quality_04.png?500 |}}
+===== References =====
+**[Belmonte 2019]**	Belmonte, J.F.; Barbosa, R.; Almeida, M. G. (2019) CO2 concentrations in a multifamily building in Porto, Portugal: occupants’ exposure and differential performance of mechanical ventilation control strategies. Journal of Building Engineering 23, pp. 114-126.
+**[EN16798-1]	**Energy performance of buildings - Part 1: Indoor environmental input parameters for the design and assessment of energy performance of buildings in terms of indoor air quality, temperature, light and acoustics - Modules M1-6; Committee 141 - Air-conditioning engineering, 2019.
+**[Han 2021]**	Han, L.; Wang, Z.; Hong, T. (2021) Occupant-Centric key performance indicators to inform building design and operations. Journal of Building Performance Simulation 14(6), pp. 814-842.
+**[Heinzerling 2013]**	Heinzerling, D.; Schiavon, S.; Webster, T.; Arens, E. (2013) Indoor environmental quality assessment models: A literature review and a proposed weighting and classification scheme. Building and Environment 70, pp. 210-222.
+**[Hong 2017]**	Hong, T.; Yan, D.; D’Oca, S.; Chen, C.-F. (2017) Ten Questions Concerning Occupant Behavior in Buildings: The Big Picture. Building and Environment 114, pp. 518-530.
+**[Lopez 2021]**	Lopez, M.; Guyot, G.; Golly, B.; Ondarts, M.; Wurtz, F.; Gonze, E. (2021) Relevance of CO2-based IAQ indicators: Feedback from long-term monitoring of three nearly zero-energy houses. Journal of Building Engineering 44, pp. 103350.
+**[outPHit D6.5]**	Steiger, J., Grove-Smith, J., Krick, B., Müller, L., Hasper, W.: outPHit D6.5 Description of a certification scheme on "verified building performance”, 2022.
+**[outPHit D6.10]**	Maier, M., Kirchmaier, M., Pfluger, R.: outPHit D6.10 Instructions for adequate monitoring equipment for living quality assessment, 2021.
+**[outPHit D6.11]**	Pfluger, R., Hammes, S., Steiger, J., Hasper, W.: outPHit D6.11 Report on living quality indicators before and after retrofit, 2023.
+**[outPHit D.612]**	Pfluger, R. Hammes, S.: outPHit D6.12 Report on microbiological assessment of indoor air quality in case study projects, 2024.
+**[Persily 2017]**	Persily, A. (2017) Indoor Carbon Dioxide as Metric of Ventilation and IAQ: Yes or No or Maybe? Is ventilation the Answer to Indoor Air Quality Control in Buildings? Do we Need Performance-Based Approaches? AIVC Workshop 2017, Brussels, Belgium.
+**[Seifert 2002]	**Seifert, B. e.a.: Leitfaden zur Vorbeugung, Untersuchung, Bewertung und Sanierung von Schimmelpilzwachstum in Innenräumen, Umweltbundesamt, Berlin 2002.
+**[Wingfield 2009]** Wingfield, J.; Bell, M.; Miles-Shenton, D.; South, T.; Lowe, R. J. (2009) Evaluating the Impact of an Enhanced Energy Performance Standard on Load-Bearing Masonry Construction – Final Report: Lessons from Stamford Brook – Understanding the Gap between Designed and Real Performance. Leeds Metropolitan University, Leeds, UK.
+----
+{{:picopen:outphit_logo_description.png?400}}{{:picopen:eu_logo_description.png?400}}
+----
+===== See also ====
+[[planning:refurbishment_with_passive_house_components]]
+[[https://passipedia.org/eu_projects_publications#outphit_-_deep_retrofits_made_faster_cheaper_and_more_reliable|outPHit - Deep retrofits made faster, cheaper and more reliable]]