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Étude numérique d’une pompe à chaleur à CO2 intégrant un stockage d’énergie thermique par chaleur sensible à delta T élevé.

Numerical investigation of high delta T sensible storage integrated CO2 heat pump.

Numéro : 2279

Auteurs : HUANG R., JAMES N., KOZUBAL E., WOODS J.

Résumé

To assist building heating electrification, this paper numerically investigates a load flexible heat pump system for commercial buildings. The system consists of a CO2 vapor compression cycle, a sensible thermal storage tank, and an air handling unit. The thermal storage medium is inexpensive, non-toxic and stable anti-freeze solution (30% potassium acetate). The air handing unit has an indoor coil and a ventilation coil. The system can be used to manage building electric load. During peak hours, the heat pump is off and the hot solution water is discharged from the tank to heat up the indoor air and ventilation air. During the hour of charge, the heat pump delivers hot solution water to the tank and to the air. The tank can also stand by while the heat pump provides space heating directly.
We selected a medium sized office building located in Minnesota as the representative building and used EnergyPlus to obtain its 24 hour load data. We designed three storage tank volumes assuming 50 °C, 65 °C and 80 °C tank temperatures to independently provide the building load for 4 hours in the morning. The higher the tank temperature, the smaller the required volume, and thus higher energy density. The effective energy density is 78 kWhth/m3 with an 80 °C tank, and 40 kWhth/m3 with 50 °C.
We simulated the tank integrated heat pump performance subjected to the 24-hour building load profile and ambient data. The baseline is the same system without storage tank. There was a trade-off between the storage energy density and the charging COP. The charge hour COP was 2.77 to charge the tank to 80 °C, and 3.01 to 50 °C. The proposed system could shift building load from the peak hours (8:00 – 12:00) to off-business hour (23:00 – 7:00+1). It eliminated 100% compressor electricity use during the peak hours, and avoided a peak electric power of 34 kW. The 65 °C tank saved 9.5 kWhe (4%) considering all day operation, which was the best balance between energy density and the system operation efficiency among the three options.

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Pages : 10 p.

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Détails

  • Titre original : Numerical investigation of high delta T sensible storage integrated CO2 heat pump.
  • Identifiant de la fiche : 30033194
  • Langues : Anglais
  • Sujet : Technologie
  • Source : 2024 Purdue Conferences. 19th International Refrigeration and Air-Conditioning Conference at Purdue.
  • Date d'édition : 17/07/2024

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