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Optimal sizing and operation of seasonal ice thermal storage systems

Jacopo Vivian, Philipp Heer, Massimo Fiorentini

2023Energy and Buildings30 citationsDOIOpen Access PDF

Abstract

Ice storage systems can be used as an efficient cooling source during summer, as well as a heat source for heat pumps during winter. The non-linear behaviour of the heat exchange process in storage makes formulations for optimising the design and operation of these technologies complex. In this work, we propose a quadratically-constrained mixed-integer programming formulation, that can capture the latent and sensible behaviour of the storage and its impact on the delivery of heating and cooling. A building demonstrator integrating an ice storage device was used as a case study. Monitoring data were used to validate the simplified ice storage model employed in the optimization. Results showed that the most common optimal storage cycle requires freezing the water during late winter and when the air temperature falls below 0 ∘C. Increasing the storage volume increases both storage efficiency and the amount of free cooling available during summer. For these reasons, economies of scale can make larger systems more competitive than smaller ones. Storage size and thermal insulation level affect the duration of the charging and discharging phases. Thermal insulation improves seasonal efficiency and free cooling significantly. The CO2 emissions price does not yield significant benefits in terms of emissions reductions. High investment costs and the seasonal variation in CO2 intensity of electricity respectively reduce the economic and environmental competitiveness of long-term ice storage systems.

Topics & Concepts

SizingThermal energy storageEnvironmental scienceMeteorologyThermalClimatologyGeologyGeographyThermodynamicsChemistryPhysicsOrganic chemistryAdsorption and Cooling SystemsPhase Change Materials ResearchBuilding Energy and Comfort Optimization
Optimal sizing and operation of seasonal ice thermal storage systems | Litcius