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Thermal Energy Storage Systems for Buildings Workshop Report 2 Workshop Objectives This workshop was designed to build on BTO’s webinar series9 and the 2019 “Workshop on Fundamental Needs for Dynamic and Interactive Thermal Storage Solutions for Buildings.” The objective of this workshop was to focus on the latest system developments in TES and associated integration and market adoption challenges preventing the widespread deployment in buildings. Stakeholders were brought together to discuss state-of-the art TES technologies, identify technology gaps and research needs to overcome market adoption barriers, and develop input for a planned roadmap to coordinate and direct future pre-competitive R&D and technology and market-scaling activities related to latent, sensible, and thermochemical TES for buildings. Four primary areas of investigation were highlighted during the workshop: (1) TES market adoption and deployment barriers, (2) key applications and value drivers, (3) system cost, performance, and market requirements, and (4) end-use specific challenges. Market Adoption and Deployment Barriers Advanced TES technologies for buildings have not experienced the same meteoric rise in adoption rates as electrochemical batteries. This could be the result of a wide variety of factors, ranging from stakeholder education and awareness to lingering technical challenges. A thorough understanding of the obstacles faced by stakeholders such as building owners and utilities will be crucial to promoting rapid deployment of TES technologies. This workshop sought to identify technical and non-technical barriers limiting the adoption and deployment of TES technologies in buildings. Key Application and Value Drivers In addition to discussing obstacles to adoption, workshop attendees worked to define value streams that motivate the selection of TES technologies. Demographic differences such as building type, ownership, climate conditions, and utility structures influence the value that can be extracted from TES. As DOE strives to increase TES deployment, key applications must be identified where the adoption of this type of storage would be most advantageous. This workshop brought together stakeholders to discuss market pulls that encourage the increased deployment of TES technologies and applications as well as scenarios particularly promising for implementation. System Cost, Performance, and Market Requirements As energy storage technologies become more mainstream, stakeholders will come to expect certain levels of performance from their investments. As TES technologies compete with alternative storage methods, an understanding of the cost and performance expectations of end users for TES devices (i.e., a value proposition) will be critical for promoting increased market deployment. Workshop participants discussed system characteristics that will be required for increased adoption of TES technologies in buildings. 9 DOE. “Thermal Energy Storage.” https://www.energy.gov/eere/buildings/thermal-energy-storage. 4PDF Image | 2021 Thermal Energy Storage Systems
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