Development of an early-stage multi-criteria decision support tool for indoor climate conditioning of archive buildings

Debayan Paul

Research output: ThesisEngD Thesis

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Abstract

Archives act as a safekeeper of the cultural identity of any nation. The primary purpose of archives is to ensure the long-term preservation of its heritage collection, often leading to energy-intensive building operations.
Archive guidelines in the Netherlands prescribe a stringent indoor climate requirement as a favourable condition for the long-term preservation of hygroscopic collection objects. Pursuing such indoor climate targets requires year-round air-conditioning, resulting in high energy consumption. On the other hand, growing evidence suggests that most collections preserve well under a wider range of indoor conditions and prompt the preservation community to rethink the notion of “the more stable, the better”. Due to a growing demand for physical archives that can preserve heritage collections and a lack of energy-efficient repositories, new archives will be constructed in the upcoming decade. The
objective of designing a new generation of sustainable archives is to strike the right balance between long-term conservation and energy-efficient operation in coming years, in accordance with improved energy efficiency targets and changing climate. In this context, the term ‘sustainability’ refers to both the economical usage of energy and the durable preservation of cultural heritage.
To improve the design sustainability of archives, practitioners from different disciplines, such as conservators, architects, and building engineers, need to collaborate from the early design stage.
Engaging such a wide spectrum of experts brings a plethora of insights to decision-making. On the other hand, it presents a new challenge due to a lack of commonality in knowledge between respective technical experts. The project envisions bridging the communication gap between stakeholders. Developing a user-friendly web-based tool which packages a state-of-the-art building simulation program has thus been objective of this project. Though the tool, stakeholders can evaluate the impact of different design options through different performance indicators like annual energy consumption, collection lifespan, and percentage share of renewable sources in end-use demand. The main feature of the tool is to enable early-phase design support which reduces designing effort and requirements of significant experience in building performance simulation for users.
The tool has been developed with continuous research on different design aspects of building energy simulation like reference weather information, building envelope properties, climate system and controls, discussion with relevant design experts and practitioners and feedback
integration from such discussions. Additional focus has been put on assimilating all such insights and design decisions under an umbrella of a single user-friendly application.
Original languageEnglish
Supervisors/Advisors
  • Loonen, Roel C.G.M., Supervisor
  • Beentjes, Gabriëlle, External supervisor, External person
Place of PublicationEindhoven
Publisher
Publication statusPublished - 6 Mar 2023

Bibliographical note

EngD thesis.

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