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Assessing long-term performance of centralized thermal energy storage system

El-sawi, A., Haghighat, F. and Akbari, H.
2014
Applied Thermal Engineering, 62(2): 313-321
Central energy storage; Heat transfer model; Simulation; Phase change materials


El-sawi, A., Haghighat, F. and Akbari, H., (2014), "Assessing long-term performance of centralized thermal energy storage system", Applied Thermal Engineering, 62(2): 313-321.
Abstract

A validated computational fluid dynamics simulation tool is used to study the long-term performance of a centralized latent heat thermal energy storage system (LHTES). The LHTES system is integrated with a building mechanical ventilation system. Paraffin RT20 was used as a phase change material (PCM) and fins are used to enhance its performance.

To reduce the computational time, artificial neural networks (ANN) was used to relate the relationships between the LHTES inputs and output parameters. Extensive CFD simulations were carried out to identify all the influential parameters for the development of ANN. They include phase change temperature range, air flow rate, the geometrical configuration of a LHTES system, fin size, and the unit's length. Further CFD simulations were carried out to provide sufficient data for proper training and testing of the ANN. The ANN model was used to predict the LHTES's outlet air-temperature. There was a good agreement between the ANN prediction and CFD model's prediction.

The ANN model then was used to study the annual performance of a LHTES for application in Montreal. We found that the potential of use the centralized LHTES system to reduce the cooling load is high with a wider phase change temperature range. The centralized LHTES system contributes to reducing the cooling load from 21% to 36% when the length of the centralized LHTES system is increased from 500 to 650 mm at a flow rate of 1.5 m/s.


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Author Information and Other Publications Notes
El-sawi, A.
  1. Centralized latent heat thermal energy storage system: Model development and validation  
Haghighat, F.
  1. An integrated zonal model for predicting transient VOC distribution in a ventilated room
  2. An integrated zonal model to predict transient indoor humidity distribution
  3. Best Practice for Architects and Engineers
  4. Centralized latent heat thermal energy storage system: Model development and validation
  5. Designing building envelope with PCM wallboards: Design tool development
  6. Energy-Storing Wallboard: Flammability Tests
  7. Final Report, IEA, annex 23, applying energy storage in buildings of the future
  8. Measurement of diffusion coefficients of VOCs for building materials: review and development of a calculation procedure
  9. Modeling moisture accumulation in multi-layered building materials, MODELING MOISTURE IN RESIDENTIAL BUILDINGS WITH A MULTIZONE IAQ PROGRAM
  10. Modeling of phase change materials for applications in whole building simulation
  11. Modelling of volatile organic compounds emission from dry building materials
  12. Modified cup for testing of water vapour transmission through thick, permeable materials
  13. Optimization of ventilation system design and operation in office environment
  14. Zonal Models for Indoor Air Flow - A Critical Review  
Akbari, H.
  1. Centralized latent heat thermal energy storage system: Model development and validation
  2. The impact of reflectivity and emissivity of roofs on building cooling and heating energy use  



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