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Catalyzing Cooling Tower Efficiency: A Novel Energy Performance Indicator and Functional Unit including Climate and Cooling Demand Normalization

Author

Listed:
  • Paula M. Wenzel

    (Institute of Energy Economics and Rational Energy Use (IER), University of Stuttgart, 70565 Stuttgart, Germany)

  • Eva Fensterle

    (Faculty 4—Energy, Process- and Bio-Engineering, University of Stuttgart, 70569 Stuttgart, Germany)

  • Peter Radgen

    (Institute of Energy Economics and Rational Energy Use (IER), University of Stuttgart, 70565 Stuttgart, Germany)

Abstract

Energy and climate targets necessitate efficiency indicators to reflect resource-saving potentials. Prevailing indicators for cooling towers, however, often omit the effect of outside conditions. Hence, this study introduces an innovative indicator grounded in the energy efficiency ratio. Our proposed metric is the cost–benefit ratio between electricity demand and the thermodynamic minimum airflow . Thus, we call the novel indicator the airflow performance indicator . To validate its feasibility, we apply the indicator first to an extensive dataset encompassing 6575 cooling tower models and second to a year-long case study involving a data center’s wet cooling system. As a result, the energy performance indicator demonstrates that dry cooling requires eight times more minimum airflow at the median than evaporative cooling would, directly correlating to the fan power. Furthermore, efficiency benchmarks derived from the dataset of 6575 cooling tower models provide a comparative assessment of the case study. Defining the quantified benefit as minimum airflow additionally underscores the limitations of free cooling as the wet cooling system only partly covers the cooling demand, requiring chillers additionally. In conclusion, the indicator empowers the identification of energy-saving potentials in the selection, design, and operation of cooling towers. Moreover, the functional unit definition provides a foundation for future life cycle assessments of cooling towers, enhancing cooling tower efficiency and sustainability.

Suggested Citation

  • Paula M. Wenzel & Eva Fensterle & Peter Radgen, 2023. "Catalyzing Cooling Tower Efficiency: A Novel Energy Performance Indicator and Functional Unit including Climate and Cooling Demand Normalization," Sustainability, MDPI, vol. 15(21), pages 1-24, October.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:21:p:15454-:d:1270895
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    References listed on IDEAS

    as
    1. Paula M. Wenzel & Marc Mühlen & Peter Radgen, 2023. "Free Cooling for Saving Energy: Technical Market Analysis of Dry, Wet, and Hybrid Cooling Based on Manufacturer Data," Energies, MDPI, vol. 16(9), pages 1-27, April.
    2. Natascha Eggers & Torsten Birth & Bernd Sankol & Lukas Kerpen & Antonio Hurtado, 2023. "A Literature Review on Existing Methods and Indicators for Evaluating the Efficiency of Power-to-X Processes," Clean Technol., MDPI, vol. 5(1), pages 1-23, January.
    3. Paula M. Wenzel & Peter Radgen, 2023. "Extending effectiveness to efficiency: Comparing energy and environmental assessment methods for a wet cooling tower," Journal of Industrial Ecology, Yale University, vol. 27(3), pages 693-706, June.
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