| Designing ventilated packaging for the fresh produce cold chain
Berry, T. M., Defraeye, T., Shrivastava, C., Ambaw, A., Coetzee, C., & Opara, U. L. (2022). Designing ventilated packaging for the fresh produce cold chain. Food and Bioproducts Processing, 134, 121-149. https://doi.org/10.1016/j.fbp.2022.04.005 |
| Exploring novel carton footprints for improved refrigerated containers usage and a more efficient supply chain
Berry, T. M., Defraeye, T., Ambaw, A., Coetzee, C. J., & Opara, U. L. (2022). Exploring novel carton footprints for improved refrigerated containers usage and a more efficient supply chain. Biosystems Engineering, 220, 181-202. https://doi.org/10.1016/j.biosystemseng.2022.06.001 |
| Cooling of ambient-loaded citrus in refrigerated containers: What impacts do packaging and loading temperature have?
Berry, T. M., Defraeye, T., Wu, W., Sibiya, M. G., North, J., & Cronje, P. J. R. (2021). Cooling of ambient-loaded citrus in refrigerated containers: What impacts do packaging and loading temperature have? Biosystems Engineering, 201, 11-22. https://doi.org/10.1016/j.biosystemseng.2020.11.002 |
| Ambient loading - increasing citrus cold chain efficiency
Berry, T. M., Defraeye, T., Sibiya, G. M., North, J., & Cronje, P. J. R. (2020). Ambient loading - increasing citrus cold chain efficiency. In M. Erkan (Ed.), Acta horticulturae: Vol. 1275. XXX international horticultural congress IHC2018: international symposium on strategies and technologies to maintain quality and reduce postharvest losses (pp. 323-328). https://doi.org/10.17660/ActaHortic.2020.1275.44 |
| Horticultural packaging systems of the future: improving reefer container usage
Berry, T. M., Defraeye, T., Ambaw, A., Coetzee, C., & Opara, U. L. (2018). Horticultural packaging systems of the future: improving reefer container usage. In U. L. Opara, O. A. Fawole, A. A. Tsige, L. de Kock, E. W. Hoffman, & E. Reinten (Eds.), Acta horticulturae: Vol. 1201. VII international conference on managing quality in chains (MQUIC2017) and II international symposium on ornamentals in association with XIII international protea research symposium (pp. 221-228). https://doi.org/10.17660/ActaHortic.2018.1201.30 |
| A virtual cold chain method to evaluate cooling heterogeneity, package designs and cold chain scenarios for fresh fruit
Wu, W., & Defraeye, T. (2018). A virtual cold chain method to evaluate cooling heterogeneity, package designs and cold chain scenarios for fresh fruit. In U. L. Opara, O. A. Fawole, A. A. Tsige, L. de Kock, E. W. Hoffman, & E. Reinten (Eds.), Acta horticulturae: Vol. 1201. VII international conference on managing quality in chains (MQUIC2017) and II international symposium on ornamentals in association with XIII international protea research symposium (pp. 289-296). https://doi.org/10.17660/ActaHortic.2018.1201.39 |
| Virtual cold chain method to model the postharvest temperature history and quality evolution of fresh fruit – A case study for citrus fruit packed in a single carton
Wu, W., Cronjé, P., Nicolai, B., Verboven, P., Opara, U. L., & Defraeye, T. (2018). Virtual cold chain method to model the postharvest temperature history and quality evolution of fresh fruit – A case study for citrus fruit packed in a single carton. Computers and Electronics in Agriculture, 144, 199-208. https://doi.org/10.1016/j.compag.2017.11.034 |
| Integral performance evaluation of the fresh-produce cold chain: a case study for ambient loading of citrus in refrigerated containers
Defraeye, T., Nicolai, B., Kirkman, W., Moore, S., van Niekerk, S., Verboven, P., & Cronjé, P. (2016). Integral performance evaluation of the fresh-produce cold chain: a case study for ambient loading of citrus in refrigerated containers. Postharvest Biology and Technology, 112, 1-13. https://doi.org/10.1016/j.postharvbio.2015.09.033 |
| Feasibility of ambient loading of citrus fruit into refrigerated containers for cooling during marine transport
Defraeye, T., Verboven, P., Opara, U. L., Nicolai, B., & Cronjé, P. (2015). Feasibility of ambient loading of citrus fruit into refrigerated containers for cooling during marine transport. Biosystems Engineering, 134, 20-30. https://doi.org/10.1016/j.biosystemseng.2015.03.012 |