Economic sizing of batteries for the smart home.
Number: pap. 3688
Author(s) : JIN X., MAGUIRE J. F., CHRISTENSEN D.
Summary
This paper presents a methodology to economically size a home battery based on parametric analysis using home energy management system (HEMS) software to optimally dispatch the battery along with controllable loads under several use cases. We account for connected equipment, controls, renewable resources, and other factors such as building characteristics and utility tariffs. The paper defines an analytical pathway for such a sizing tool, develops initial sizing guidance, and clarifies technical and market opportunities for home batteries in the context of existing and emerging equipment and control technologies. A parametric analysis that included 132 scenarios has been performed based on different combinations of pertinent parameters. Results indicate that four variables dominate the decision-making process: application scenarios (new construction or retrofit), utility tariffs, existence of HEMS, and the anticipated payback time. Life-cycle cost analysis indicated that in the absence of utility incentives, batteries plus HEMS have a payback time of longer than 10 years for new construction under a time-of-use rate structure and feedin tariff; larger batteries have a longer payback time but may provide more benefits to utilities on reducing power backfeed under certain circumstances.
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Details
- Original title: Economic sizing of batteries for the smart home.
- Record ID : 30025069
- Languages: English
- Source: 2018 Purdue Conferences. 5th International High Performance Buildings Conference at Purdue.
- Publication date: 2018/07/09
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