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Novel Energy-Saving Strategies in Apple Storage: A Review

Author

Listed:
  • Felix Büchele

    (Lake of Constance Research Center for Fruit Cultivation (KOB), Schuhmacherhof 6, 88213 Ravensburg, Germany)

  • Kiran Hivare

    (Lake of Constance Research Center for Fruit Cultivation (KOB), Schuhmacherhof 6, 88213 Ravensburg, Germany)

  • Kartik Khera

    (Lake of Constance Research Center for Fruit Cultivation (KOB), Schuhmacherhof 6, 88213 Ravensburg, Germany)

  • Fabio Rodrigo Thewes

    (Department of Plant Science, Federal University of Santa Maria, Roraima Avenue 100, Camobi, Santa Maria 97105-900, RS, Brazil)

  • Luiz Carlos Argenta

    (Epagri Experimental Station of Caçador, C.P. 501, Caçador 89501-032, SC, Brazil)

  • Tuany Gabriela Hoffmann

    (Department Systems Process Engineering, Leibniz Institute for Agricultural Engineering and Bioeconomy (ATB), Max-Eyth-Allee 100, 14469 Potsdam, Germany)

  • Pramod V. Mahajan

    (Department Systems Process Engineering, Leibniz Institute for Agricultural Engineering and Bioeconomy (ATB), Max-Eyth-Allee 100, 14469 Potsdam, Germany)

  • Robert K. Prange

    (Special Graduate Faculty, School of Environmental Sciences, University of Guelph, Guelph, ON N1G 2W1, Canada)

  • Sunil Pareek

    (Department of Agriculture and Environmental Sciences, National Institute of Food Technology Entrepreneurship and Management, Sonipat 131028, Haryana, India)

  • Daniel Alexandre Neuwald

    (Lake of Constance Research Center for Fruit Cultivation (KOB), Schuhmacherhof 6, 88213 Ravensburg, Germany)

Abstract

Storing apples for up to a year is a well-established practice aimed at providing a continuous, locally produced fruit supply to consumers and adapting to market trends for optimized profits. Temperature control is the cornerstone of postharvest conservation, and apples are typically kept at temperatures ranging from 0 to 3 °C. However, the energy-intensive process of the initial cool-down and subsequent temperature maintenance poses significant financial challenges with adverse effects on the carbon footprint. Higher storage temperatures could reduce cooling-related energy usage but also pose the risk of enhanced ripening and quality loss. This work explores different storage technologies aiming to reduce energy consumption, such as 1-methylcyclopropene, ultra-low oxygen, and a dynamically controlled atmosphere with raised temperatures. The integration of advanced monitoring and control systems, coupled with data analytics and energy management, in apple storage is also discussed. These strategies can be implemented without cost-intensive construction measures in standard storage facilities. Furthermore, beneficial side effects of higher storage temperatures in terms of a reduced occurrence of storage disorder symptoms and higher maintenance of quality attributes are also discussed for this special issue on sustainable horticultural production systems and supply chains.

Suggested Citation

  • Felix Büchele & Kiran Hivare & Kartik Khera & Fabio Rodrigo Thewes & Luiz Carlos Argenta & Tuany Gabriela Hoffmann & Pramod V. Mahajan & Robert K. Prange & Sunil Pareek & Daniel Alexandre Neuwald, 2024. "Novel Energy-Saving Strategies in Apple Storage: A Review," Sustainability, MDPI, vol. 16(3), pages 1-11, January.
  • Handle: RePEc:gam:jsusta:v:16:y:2024:i:3:p:1052-:d:1326575
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    References listed on IDEAS

    as
    1. Kazimierz Tomala & Maria Małachowska & Dominika Guzek & Dominika Głąbska & Krystyna Gutkowska, 2020. "The Effects of 1-Methylcyclopropene Treatment on the Fruit Quality of ‘Idared’ Apples during Storage and Transportation," Agriculture, MDPI, vol. 10(11), pages 1-12, October.
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