Adaptive ventilation for climate control in a medieval church in cold climate

Napp, Margus; Wessberg, Magnus; Kalamees, Targo; Broström, Tor

doi:10.1080/14733315.2016.1173289

Cited by 12 publications

(4 citation statements)

References 11 publications

(8 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The most common is to design aeration with the combined complex action of heat and wind. Taking into consideration the architectural and design features of orthodox churches [7], it is necessary to arrange sufficient tests for air movement outside the facility [8]. During these tests could be indicated and proved the values aerodynamic coefficients.…”

Section: Discussionmentioning

confidence: 99%

Air exchange calculation in traditional buildings of orthodox churches in Russia

2021

View full text Add to dashboard Cite

The paper devoted to indoor air quality providing in orthodox churches in Russia. Using the results of theoretical and experimental research made some practical recommendations for design and installation of ventilation systems in orthodox churches. Significant part of research deals with air and constructions humidity controls by reverse osmosis. It is reaffirmed that the rate of dehumidification is directly connected with the air exchange rates and operation of space heating devises in premises. It is very common to use natural ventilation in old churches. It is very easy to install and maintain, but still this way of indoor air conditions providing is absolutely not sustainable. And to avoid the leak of ventilation efficiency for different rooms it is recommended to provide mechanical supply and exhaust ventilation. Another significant issue for providing rapid wall dehumidification is properly operating space heating. It is noted that heating should be combined with an action of ventilation and electroosmotic drying.

show abstract

Section: Discussionmentioning

confidence: 99%

Air exchange calculation in traditional buildings of orthodox churches in Russia

2021

View full text Add to dashboard Cite

show abstract

“…The IDA ICE software has been meticulously validated (Achermann & Zweifel, 2003;Kropf & Zweifel, 2001;Mateo & Aranaz, 2011;Moinard & Guyon, 2000;Travesi et al, 2001;Woloszyn et al, 2009) and allows modelling of a multi-zone building, internal and solar loads, outdoor climate and HVAC systems, as well as dynamic simulation of heat transfer and air flows. The program has been used in many indoor climate and envelope moisture interaction applications (Frasca, 2015;Kalamees et al, 2015;Napp et al, 2016;Rode & Woloszyn, 2007). To calculate moisture transfer in IDA ICE, the common wall model RCWall should be replaced with the HAMWall model (Kurnitski & Vuolle, 2000).…”

Section: Modellingmentioning

confidence: 99%

Moisture Safety in Prefabricated Roof Renovations: Causes and Strategies

Kodi,

Kalbe,

Kalamees

2024

sace

View full text Add to dashboard Cite

Achieving carbon neutrality by 2050 requires extensive energy renovation of the existing building stock. In this study we focus on deep renovation with prefabricated insulation elements as a potential solution to attain the required renovation speed and volume. The use of such elements without a proper moisture safety strategy can, however, lead to moisture-related problems, including mould growth. Here we examine the causes of moisture and mould damage in a case study of a building that has been renovated to near-zero energy standards using prefabricated insulation elements. The study elucidates the reasons for the moisture damages detected and proposes two moisture safety strategies to improve the situation. The first strategy emphasizes the importance of ensuring dry construction conditions by either using a full temporary roof or avoiding rainfall during installation. The second strategy addresses localized water damage to the attic floor and involves the use of protective measures, active ventilation and a correct installation sequence. In the case of local moisture damage, the required amount of ventilation air flow during summer is 0.5–0.55 l/(s·m²). During cooler periods, heating is needed. The employed methods include modelling the case-study building with the IDA Indoor Climate and Energy software, as well as mould growth risk assessment based on temperature and relative humidity measurements. The results highlight the effectiveness of both strategies in preventing mould growth if applied correctly, and emphasize the need for thorough planning, moisture safety regulations and rapid response to ensure successful renovation with prefabricated insulation units. The study provides valuable information on moisture safety strategies for serial renovations with prefabricated elements. The existence and proper implementation of a moisture safety strategy is important for achieving the desired energy performance goals while maintaining building durability and occupant health, and it needs to be applied throughout the chain of site management: from the main contractor down to the skilled worker.

show abstract

“…The climate affects the structure based on the structure's dimension, internal partition, and building materials [1]. In historic churches, high relative humidity (RH) and low temperature (T) values are often found [2,3], making the indoor environment uncomfortable for visitors and patrons. To improve comfort for users, many sites installed heating systems in the 20th century [4].…”

Section: Introductionmentioning

confidence: 99%

Preservation of Distemper Painting: Indoor Monitoring Tools for Risk Assessment and Decision Making in Kvernes Stave Church

Olstad

Ørnhøi

Jernæs

et al. 2020

Climate

View full text Add to dashboard Cite

During the Medieval period, over 1000 stave churches were thought to have been constructed in Norway. However, currently, only 28 of these churches remain and only 19 still have distemper wall paintings. The cultural significance of these structures, and more specifically their elaborate distemper wall paintings, has changed over time, as have the means and methods for preserving these monuments. Deeper knowledge of the current state of these structures, along with environmental monitoring and modeling will open the way to a better understanding of preservation. This paper presents a case study for unheated Norwegian wooden churches based on data collected from Kvernes stave church. There are three aims for this paper: (i) to describe the typical indoor conditions similar to the historic climate of stave churches; (ii) determine the common characteristics of distemper paint found within stave churches; (iii) and develop a risk assessment tool to evaluate the climate-induced risk factors in stave churches. The outcome of this work will contribute to research performed within the Sustainable Management of Heritage Buildings in a Long-term Perspective (SyMBoL) project which aims to develop a better understanding of climate induced risks for stave churches, and ultimately to better manage environmental risk.

show abstract

Adaptive ventilation for climate control in a medieval church in cold climate

Cited by 12 publications

References 11 publications

Air exchange calculation in traditional buildings of orthodox churches in Russia

Air exchange calculation in traditional buildings of orthodox churches in Russia

Moisture Safety in Prefabricated Roof Renovations: Causes and Strategies

Preservation of Distemper Painting: Indoor Monitoring Tools for Risk Assessment and Decision Making in Kvernes Stave Church

Contact Info

Product

Resources

About