Expert assessments on the future of direct current in buildings

Glasgo, Brock; Azevedo, Inês L.; Hendrickson, Chris

doi:10.1088/1748-9326/aaca42

Cited by 21 publications

(12 citation statements)

References 19 publications

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“…The framework is still in the process of improvement, as the available literature suggests that it might be too subjective [32]. Additionally, it encourages the utilization of digital technologies and electronic systems in buildings, potentially leading to future fire hazards that necessitate attention and resolution [33]. However, for this paper, the focus will be on the type of data that can be taken from an SRI assessment file to develop the RS.…”

Section: Smart Readiness Indicatormentioning

confidence: 99%

SmartBuild RecSys: A Recommendation System Based on the Smart Readiness Indicator for Energy Efficiency in Buildings

Siddique,

Koukaras,

Ioannidis

et al. 2023

Algorithms

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The Smart Readiness Indicator (SRI) is a newly developed framework that measures a building’s technological readiness to improve its energy efficiency. The integration of data obtained from this framework with data derived from Building Information Modeling (BIM) has the potential to yield compelling results. This research proposes an algorithm for a Recommendation System (RS) that uses SRI and BIM data to advise on building energy-efficiency improvements. Following a modular programming approach, the proposed system is split into two algorithmic approaches linked with two distinct use cases. In the first use case, BIM data are utilized to provide thermal envelope enhancement recommendations. A hybrid Machine Learning (ML) (Random Forest–Decision Tree) algorithm is trained using an Industry Foundation Class (IFC) BIM model of CERTH’S nZEB Smart Home in Greece and Passive House database data. In the second use case, SRI data are utilized to develop an RS for Heating, Ventilation, and Air Conditioning (HVAC) system improvement, in which a process utilizes a filtering function and KNN algorithm to suggest automation levels for building service improvements. Considering the results from both use cases, this paper provides a solid framework that exploits more possibilities for coupling SRI with BIM data. It presents a novel algorithm that exploits these data to facilitate the development of an RS system for increasing building energy efficiency.

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Section: Smart Readiness Indicatormentioning

confidence: 99%

SmartBuild RecSys: A Recommendation System Based on the Smart Readiness Indicator for Energy Efficiency in Buildings

Siddique,

Koukaras,

Ioannidis

et al. 2023

Algorithms

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“…In 2016, a research study for the California Energy Commission solicited stakeholder input on DC power systems through a workshop of approximately 30 participants, electronic surveys with 39 respondents, and 10 detailed interviews with DC system researchers, designers, policymakers, and manufacturers [15]. Glasgo et al [26] conducted telephonic interviews of 17 DC distribution experts and stakeholders to gain a better understanding of the greatest non-technical barriers to the deployment of DC systems. In another study, the United States National Electrical Manufacturers Association surveyed 39 participants (consisting primarily of equipment manufacturers) on the benefits, barriers, and recommendations for DC in buildings.…”

Section: Related Workmentioning

confidence: 99%

Adoption Pathways for DC Power Distribution in Buildings

et al. 2022

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Driven by the proliferation of DC energy sources and DC end-use devices (e.g., photovoltaics, battery storage, solid-state lighting, and consumer electronics), DC power distribution in buildings has recently emerged as a path to improved efficiency, resilience, and cost savings in the transitioning building sector. Despite these important benefits, there are several technological and market barriers impeding the development of DC distribution, which have kept this technology at the demonstration phase. This paper identifies specific end-use cases for which DC distribution in buildings is viable today. We evaluate their technology and market readiness, as well as their efficiency, cost, and resiliency benefits while addressing implementation barriers. The paper starts with a technology review, followed by a comprehensive market assessment, in which we analyze DC distribution field deployments and their end-use characteristics. We also conduct a survey of DC power and building professionals through on-site visits and phone interviews and summarize lessons learned and recommendations. In addition, the paper includes a novel efficiency analysis, in which we quantify energy savings from DC distribution for different end-use categories. Based on our findings, we present specific adoption pathways for DC in buildings that can be implemented today, and for each pathway we identify challenges and offer recommendations for the research and building community.

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“…Such a system can communicate and supply power over a single distribution line, and interconnection with other on-site DC generation sources such as PV is simplified. Experts on the future of direct current in buildings (Glasgo, Azevedo, and Hendrickson 2018) suggest that the two biggest barriers for DC coupling are industry professionals unfamiliar with DC and comparatively small markets for DC devices and components.…”

Section: Comparison Of Ac and DC Configurationsmentioning

confidence: 99%

Hybrid Distributed Wind and Battery Energy Storage Systems

Reilly¹,

Poudel²,

Krishnan³

et al. 2022

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For individuals, businesses, and communities seeking to improve system resilience, power quality, reliability, and flexibility, distributed wind can provide an affordable, accessible, and compatible renewable energy resource. Distributed wind assets are often installed to offset retail power costs or secure long term power cost certainty, support grid operations and local loads, and electrify remote locations not connected to a centralized grid. However, there are technical barriers to fully realizing these benefits with wind alone. Many of these technical barriers can be overcome by the hybridization of distributed wind assets, particularly with storage technologies. Electricity storage can shift wind energy from periods of low demand to peak times, to smooth fluctuations in output, and to provide resilience services during periods of low resource adequacy.Although interconnecting and coordinating wind energy and energy storage is not a new concept, the strategy has many benefits and integration considerations that have not been welldocumented in distribution applications. Thus, the goal of this report is to promote understanding of the technologies involved in wind-storage hybrid systems and to determine the optimal strategies for integrating these technologies into a distributed system that provides primary energy as well as grid support services. This document achieves this goal by providing a comprehensive overview of the state-of-the-art for wind-storage hybrid systems, particularly in distributed wind applications, to enable distributed wind system stakeholders to realize the maximum benefits of their system. As battery costs continue to decrease and efficiency continues to increase, an enhanced understanding of distributed-wind-storage hybrid systems in the context of evolving technology, regulations, and market structure can help accelerate these trends. vi This report is available at no cost from the National Renewable Energy Laboratory at www.nrel.gov/publications.

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Expert assessments on the future of direct current in buildings

Cited by 21 publications

References 19 publications

SmartBuild RecSys: A Recommendation System Based on the Smart Readiness Indicator for Energy Efficiency in Buildings

SmartBuild RecSys: A Recommendation System Based on the Smart Readiness Indicator for Energy Efficiency in Buildings

Adoption Pathways for DC Power Distribution in Buildings

Hybrid Distributed Wind and Battery Energy Storage Systems

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