L. Bratasz, Tim White, Susan H. Butts, C. Sease, Nathan Utrup, R. Boardman, Stefan Simon
{"title":"Toward Sustainable Collections Management in the Yale Peabody Museum: Risk Assessment, Climate Management, and Energy Efficiency","authors":"L. Bratasz, Tim White, Susan H. Butts, C. Sease, Nathan Utrup, R. Boardman, Stefan Simon","doi":"10.3374/014.059.0206","DOIUrl":null,"url":null,"abstract":"Abstract The Peabody Museum of Natural History at Yale University has a long tradition of promoting and maintaining high standards of care for their collection of more than 13 million objects. Recently, an analysis of the current environmental conditions in the three primary museum buildings— Peabody Museum of Natural History, Kline Geology Laboratory, and the Class of 1954 Environmental Science Center—showed that the stability of environmental conditions and efficiency in air-handling systems are poorly constrained. An analysis of energy use in climate control showed that the Class of 1954 Environmental Science Center, the most modern building of the complex, is the least energy-efficient of the three and one of the least energy-efficient museum buildings at Yale University. The Yale Peabody Museum, in collaboration with the Yale Institute for the Preservation of Cultural Heritage, evaluated the current climate control strategy with an eye toward achieving a more practical and responsible approach, which considers the historic character of the buildings, high cost of climate control, and sensitivity to energy sustainability. This is a key mission of the University, as outlined in the Yale Sustainability Plan 2025. The main element in the transformation to a new strategy of climate management is the assessment of climate-related risks to collections. Our assessment indicates that degradation of chemically unstable polymers is the process that dominates loss of value of those collections due to climate- related risks. It is estimated that chemical degradation processes have approximately two orders of magnitude larger impact on collection value than the degradation of pyrite and pyrite-containing materials and even more than pest damage. Other climate-related processes are relatively negligible in effect. These findings allow us to change the strategy of climate control, giving priority to maintaining low temperature in rooms housing collections made of organic materials and relaxing the range of allowable relative humidity parameters. The new strategy includes a shift from climate control to climate management, including: dual set-point (deadband) controllers to reduce energy consumption and lower CO2 emissions, nightly shutdowns of the air-handling system serving dry collections in a modern building, broader thermal criteria, and a reduction of the amount of fresh air introduced to the buildings. These will be implemented sequentially. Progress and outcomes will be the focus of a subsequent article.","PeriodicalId":50719,"journal":{"name":"Bulletin of the Peabody Museum of Natural History","volume":"59 1","pages":"249 - 268"},"PeriodicalIF":2.2000,"publicationDate":"2018-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.3374/014.059.0206","citationCount":"4","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Bulletin of the Peabody Museum of Natural History","FirstCategoryId":"98","ListUrlMain":"https://doi.org/10.3374/014.059.0206","RegionNum":4,"RegionCategory":"哲学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"BIODIVERSITY CONSERVATION","Score":null,"Total":0}
引用次数: 4
Abstract
Abstract The Peabody Museum of Natural History at Yale University has a long tradition of promoting and maintaining high standards of care for their collection of more than 13 million objects. Recently, an analysis of the current environmental conditions in the three primary museum buildings— Peabody Museum of Natural History, Kline Geology Laboratory, and the Class of 1954 Environmental Science Center—showed that the stability of environmental conditions and efficiency in air-handling systems are poorly constrained. An analysis of energy use in climate control showed that the Class of 1954 Environmental Science Center, the most modern building of the complex, is the least energy-efficient of the three and one of the least energy-efficient museum buildings at Yale University. The Yale Peabody Museum, in collaboration with the Yale Institute for the Preservation of Cultural Heritage, evaluated the current climate control strategy with an eye toward achieving a more practical and responsible approach, which considers the historic character of the buildings, high cost of climate control, and sensitivity to energy sustainability. This is a key mission of the University, as outlined in the Yale Sustainability Plan 2025. The main element in the transformation to a new strategy of climate management is the assessment of climate-related risks to collections. Our assessment indicates that degradation of chemically unstable polymers is the process that dominates loss of value of those collections due to climate- related risks. It is estimated that chemical degradation processes have approximately two orders of magnitude larger impact on collection value than the degradation of pyrite and pyrite-containing materials and even more than pest damage. Other climate-related processes are relatively negligible in effect. These findings allow us to change the strategy of climate control, giving priority to maintaining low temperature in rooms housing collections made of organic materials and relaxing the range of allowable relative humidity parameters. The new strategy includes a shift from climate control to climate management, including: dual set-point (deadband) controllers to reduce energy consumption and lower CO2 emissions, nightly shutdowns of the air-handling system serving dry collections in a modern building, broader thermal criteria, and a reduction of the amount of fresh air introduced to the buildings. These will be implemented sequentially. Progress and outcomes will be the focus of a subsequent article.
耶鲁大学皮博迪自然历史博物馆(Peabody Museum of Natural History)拥有悠久的传统,致力于促进和维护其1300多万件藏品的高标准。最近,对三个主要博物馆建筑——皮博迪自然历史博物馆、克莱恩地质实验室和1954届环境科学中心——当前环境条件的分析表明,环境条件的稳定性和空气处理系统的效率受到了很好的约束。一项对气候控制中能源使用的分析表明,作为该建筑群中最现代化的建筑,1954届的环境科学中心是三座建筑中能效最低的,也是耶鲁大学博物馆中能效最低的建筑之一。耶鲁大学皮博迪博物馆与耶鲁大学文化遗产保护研究所合作,评估了当前的气候控制策略,着眼于实现更实际和负责任的方法,该方法考虑到建筑物的历史特征、气候控制的高成本以及对能源可持续性的敏感性。这是耶鲁大学在《2025年可持续发展计划》中提出的一项重要使命。向气候管理新战略转变的主要内容是评估与气候有关的收集风险。我们的评估表明,化学不稳定聚合物的降解是由于气候相关风险导致这些收藏品价值损失的主要过程。据估计,化学降解过程对收集价值的影响大约比黄铁矿和含黄铁矿材料的降解大两个数量级,甚至比虫害损害还要大。其他与气候有关的过程的影响相对可以忽略不计。这些发现使我们能够改变气候控制策略,优先考虑在由有机材料制成的房间中保持低温,并放宽允许的相对湿度参数范围。新战略包括从气候控制向气候管理的转变,包括:双设定点(死区)控制器,以减少能源消耗和二氧化碳排放,夜间关闭现代建筑中用于干收集的空气处理系统,更广泛的热标准,以及减少引入建筑物的新鲜空气量。这些将依次实现。进展和结果将是后续文章的重点。
期刊介绍:
The Bulletin of the Peabody Museum of Natural History publishes original research based on specimens, artifacts and related materials maintained in the collections of the Yale Peabody Museum of Natural History’s curatorial divisions. The Bulletin is published twice a year, in April and October.