Dr.-Ing. Akshay Sonawane
Aufsätze in referierten Fachzeitschriften [8 Ergebnisse]
- Linke, M.; Hoffmann, T.; Sonawane, A.; Rux, G.; Mahajan, P. (2024): Method for measuring the transpiration resistance of fruit and vegetables. MethodsX. (December 2024): p. 103058. Online: https://doi.org/10.1016/j.mex.2024.103058
- Hoffmann, T.; Linke, M.; Praeger, U.; Sonawane, A.; Büchele, F.; Neuwald, D.; Jedermann, R.; Sturm, B.; Mahajan, P. (2024): Heat transfer in large bins during the apples cool-down process. International Journal of Refrigeration. (February 2025): p. 60-69. Online: https://doi.org/10.1016/j.ijrefrig.2024.11.023
- Sonawane, A.; Chaiwong, S.; Weltzien, C.; Mahajan, P. (2023): A model integrating fruit physiology, perforation, and scavenger for prediction of ethylene accumulation in fruit package. Postharvest Biology and Technology. (March 2024): p. 112734. Online: https://doi.org/10.1016/j.postharvbio.2023.112734
- Nur Hanani, Z.; Sonawane, A.; Mahajan, P. (2023): Impact of humidity, temperature and condensation on O2 and CO2 transmission rate of modified atmosphere packages. Food Packaging and Shelf Life. (November 2023): p. 101132. Online: https://doi.org/10.1016/j.fpsl.2023.101132
- Sonawane, A.; Oliveira, J.; Weltzien, C.; Mahajan, P. (2023): Prediction of ethylene permeance through perforated packaging films using a dimensionless correlation. Journal of Food Engineering. (November 2023): p. 111610. Online: https://doi.org/10.1016/j.jfoodeng.2023.111610
- Sonawane, A.; Pathak, N.; Weltzien, C.; Mahajan, P. (2023): Ethylene modelling in package headspace of fresh produce: A review. Packaging Technology and Science. (9): p. 731-743. Online: https://doi.org/10.1002/pts.2753
- Sonawane, A.; Pathak, N.; Weltzien, C.; Mahajan, P. (2022): Ethylene permeance through perforated packaging film: Modelling and effect of air velocity, temperature, film thickness and perforation diameter. Food Packaging and Shelf Life. (December 2022): p. 100961. Online: https://doi.org/10.1016/j.fpsl.2022.100961
- Sonawane, A.; Pathak, N.; Weltzien, C.; Mahajan, P. (2022): Role of laser micro-perforations on ethylene transmission in packaging materials used for fresh produce. Packaging Technology and Science. (7): p. 1-7. Online: https://doi.org/10.1002/pts.2674
Monografien nach Autorenschaft [1 Ergebnis]
Beiträge zu Sammelwerken [6 Ergebnisse]
- Jedermann, R.; Hoffmann, T.; Sonawane, A.; Mahajan, P.; Lüssem, B. (2024): Fruity Twin - A digital platform for processing sensor data in food cool chains. In: 2024 IEEE SENSORS. IEEE SENSORS 2024. IEEE, Kobe, Japan, (2168-9229; 979-8-3503-6351-7), p. 1-4. Online: https://doi.org/10.1109/SENSORS60989.2024.10785038
- Sonawane, A.; Mahajan, P. (2024): Model for Ethylene Prediction in Fruit Package. In: Book of Abstract. 4th International Joint Symposium on Agriculture and Food Security. p. 43-43.
- Hoffmann, T.; Sonawane, A.; Jedermann, R.; Praeger, U.; Linke, M.; Sturm, B.; Mahajan, P. (2024): Integrating digital twin technology for sustainable postharvest management of fresh produce. In: Book of Abstract. 4th International Joint Symposium on Agriculture and Food Security. p. 44-44.
- Sonawane, A.; Weltzien, C.; Mahajan, P. (2023): Investigating the influence of temperature on ethylene removal kinetics for commercial scavenger. In: Mahajan, P.; Zude-Sasse, M.; Geyer, M.(eds.): VII International Symposium on Applications of Modelling as an Innovative Technology in the Horticultural Supply Chain - Model-IT 2023. Model-It 2023 - VII International Symposium on Applications of Modelling as an Innovative Technology in the Horticultural Supply Chain. ISHS, Leuven, (0567-7572; 2406-6168; 978 94 6261 381 2), p. 125-130. Online: https://doi.org/10.17660/ActaHortic.2023.1382.16
- Sonawane, A.; Mahajan, P. (2023): The modelling of ethylene scavenger reveals temperature-dependent removal rate while the removal capacity remains constant. In: VII International Symposium Applications of Modelling as an InnovativeTechnology in the Horticultural Supply Chain - Model It 2023. Model-It 2023 - VII International Symposium on Applications of Modelling as an Innovative Technology in the Horticultural Supply Chain. p. 35-35. Online: https://model-it2023.atb-potsdam.de/fileadmin/Projekte/Model-IT2023/Book_of_Abstract_Model-It_2023.pdf
- Sonawane, A.; Mahajan, P.; Weltzien, C. (2023): A model-based approach for simulation of ethylene accumulation inside perforated modified atmospheric packaging. In: VII International Symposium Applications of Modelling as an InnovativeTechnology in the Horticultural Supply Chain - Model It 2023. Model-It 2023 - VII International Symposium on Applications of Modelling as an Innovative Technology in the Horticultural Supply Chain. p. 12-12. Online: https://model-it2023.atb-potsdam.de/fileadmin/Projekte/Model-IT2023/Book_of_Abstract_Model-It_2023.pdf
Vorträge und Poster [11 Ergebnisse]
- Sonawane, A.; Mahajan, P. (2024): Model for Ethylene Prediction in Fruit Package.
- Hoffmann, T.; Sonawane, A.; Jedermann, R.; Praeger, U.; Linke, M.; Sturm, B.; Mahajan, P. (2024): Integrating Digital Twin Technology for Sustainable Postharvest Management of Fresh Produce.
- Sonawane, A.; Chaiwong, S.; Weltzien, C.; Mahajan, P. (2024): A model integrating physiology, perforation, and scavenger for prediction of ethylene accumulation in fresh produce package.
- Kalnar, Y.; Jalali, A.; Sonawane, A.; Weltzien, C.; Mahajan, P. (2024): Temperature Responsive Dynamic O2 Control in Fresh Produce Modified Atmosphere Transport container.
- Hoffmann, T.; Sonawane, A.; Jedermann, R.; Praeger, U.; Neuwald, D.; Linke, M.; Barkov, V.; Atzmueller, M.; Sturm, B.; Mahajan, P. (2024): A data-driven approach for fresh produce preservation inside cold room.
- Sonawane, A. (2023): Ethylene management in fresh produce supply chain.
- Sonawane, A. (2023): Condensation and mass loss modelling.
- Sonawane, A.; Mahajan, P. (2023): Investigating the influence of temperature on ethylene removal kinetics using a commercial scavenger.
- Sonawane, A.; Mahajan, P.; Weltzien, C. (2023): A model-based approach for simulation of ethylene accumulation inside perforated modified atmospheric packaging.
- Sonawane, A. (2023): Modelling of ethylene permeance through perforated packaging film using dimensionless correlation.