Journal of Researches in Mechanics of Agricultural Machinery

Journal of Researches in Mechanics of Agricultural Machinery

Investigating the physical and mechanical properties of the renewable pot and simulating its behavior with Ansys software

Document Type : Research Paper

Authors
Mehdi kakaei
hosein haji agha alizadeh
Department of Biosystems Engineering, Faculty of Agriculture, Bu-Ali Sina University, Hamedan, Iran.
10.22034/JRMAM.2024.14766.709
Abstract
In developing countries, traditional transplanting is one of the conventional methods at the farm level. In this method, the environmental pollution from plastic trays destroys the structure and soil texture. For this reason, nowadays, they use an alternative method, degradable pots. This research investigated the characteristics of two types of renewable pots using a pressure test device with three humidity levels in three repetitions. The general goal is to introduce the best pot for planting seedlings in a smart device to develop technical knowledge and increase planting productivity with the least waste in Iranian farms. The results showed that the type of pot, for parameters density, ultimate stress, displacement in ultimate stress, yield stress, and displacement in yield stress at the level of 5% and water absorption time, for parameters density, humidity, ultimate stress, displacement in ultimate stress, yield stress, displacement in yield stress and pot thickness is significant at 1% level. Also, the simulation test result of incomplete conical cylinder and square pyramid renewable pot using Ansys software with laboratory data showed a coefficient of determination of 88 and 91%, respectively. According to the present research, the best option for planting in the smart planter is to sample the incomplete conical cylinder pot with the initial moisture content and the duration of 30 minutes of water absorption.
Keywords
Physical and mechanical properties
Simulation
Sustainable agriculture
Renewable pot
Ansys software
Subjects
Aguerre, Y. S., & Gavazzo, G. B. (2016). Lignocellulosic recycled materials to design molded products: Optimization of physical and mechanical properties.
 
An, S., Bae, J. H., Kim, H. C., & Kwack, Y. (2021). Production of grafted vegetable seedlings in the Republic of Korea: achievements, challenges and perspectives. Horticultural Science and Technology, 39(5): 547-559.
 
Asmara, S., Rahmawati, W., Suharyatun, S., Kurnia, B., Listiana, I., & Widyastuti, R. (2021). Producing organic pot from cassava stem waste for water spinach (Ipomea reptans Poir) as waste management strategy. Paper presented at the IOP Conference Series: Earth and Environmental Science.
 
Fadiji, T., Coetzee, C. J., Berry, T. M., & Opara, U. L. (2019). Investigating the role of geometrical configurations of ventilated fresh produce packaging to improve the mechanical strength–Experimental and numerical approaches. Food packaging and shelf life, 20: 100312.
 
Gholami, R., & Gholami, H. (2019). The effect of drought stress on some vegetative and physiological characteristics of superior local olive genotypes (Olea europaea L.) in pot conditions. Plant Productions, 41(4): 15-28.
 
Haslach, H. W. (2000). The moisture and rate-dependent mechanical properties of paper: a review. Mechanics of time-dependent materials, 4: 169-210.
 
Im, J., Jang, E. K., Yim, D., Kim, J.-H., & Cho, K. Y. (2020). One-pot fabrication of uniform half-moon-shaped biodegradable microparticles via microfluidic approach. Journal of Industrial and Engineering Chemistry, 90: 152-158.
 
Jaya, J. D., Elma, M., Sunardi, S., & Nugroho, A. (2022). Physical and Mechanical Properties of Biodegradable Pot Derived from Oil Palm Empty Fruit Bunch and Sodium Alginate. Brazilian Archives of Biology and Technology, 65: e22210789.
 
Juanga-Labayen, J. P., & Yuan, Q. (2021a). Making biodegradable seedling pots from textile and paper Waste—Part a: factors affecting tensile strength. International Journal of Environmental Research and Public Health, 18(13): 6964.
 
Juanga-Labayen, J. P., & Yuan, Q. (2021b). Making biodegradable seedling pots from textile and paper waste—Part B: Development and evaluation of seedling pots. International Journal of Environmental Research and Public Health, 18(14): 7609.
 
Lehti, S., Ketoja, J., & Niskanen, K. (2003). Measurement of Paper rheology at varied moisture contents. Paper presented at the Int Paper Phys Conf Proc.
 
Manafi-Dastjerdi, M., Ebrahimi-Nik, M., Rohani, A., & Lawson, S. (2021). Production of biodegradable pots from cattle manure and wood waste: effects of natural binders on mechanical performances and biodegradability. Environmental Science and Pollution Research, 1-14.
 
Nader, J., Assaf, J. C., Debs, E., & Louka, N. (2023). Innovative Method for Determining Young’s Modulus of Elasticity in Products with Irregular Shapes: Application on Peanuts. Processes, 11(9): 2532.
 
Paudel, B., Basak, J. K., Kaushalya Madhavi, B. G., Kim, N.-E., Lee, G.-H., Choi, G.-M., . . Kim, H. T. (2022). Properties of paper-based biodegradable pots for growing seedlings. Horticulture, Environment, and Biotechnology, 63(6): 793-807.
 
Rafee, S. N. A. M., Lee, Y. L., Jamalludin, M. R., Razak, N. A., Makhtar, N. L., & Ismail, R. I. (2019). Effect of different ratios of biomaterials to banana peels on the weight loss of biodegradable pots. Acta Technologica Agriculturae, 22(1): 1-4.
 
Schettini, E., Santagata, G., Malinconico, M., Immirzi, B., Mugnozza, G. S., & Vox, G. (2013). Recycled wastes of tomato and hemp fibres for biodegradable pots: Physico-chemical characterization and field performance. Resources, Conservation and Recycling, 70: 9-19.
 
SÅ‚onina, M., Dziurka, D., & Smardzewski, J. (2020). Experimental research and numerical analysis of the elastic properties of paper cell cores before and after impregnation. Materials, 13(9): 2058.
 
Wembe, B. D., Djomi, R., Konai, N., Ntamack, G. E., Tsopmo, F. A., Olubusoye, O. E., & Meva’a, L. (2023). Investigation on the Mechanical Properties of Paper Water Hyacinth (Eichhornia Crassipes). European Journal of Engineering and Technology Research, 8(1): 54-58.
 
Zhang, X., Wang, C., & Chen, Y. (2019). Properties of selected biodegradable seedling plug-trays. Scientia Horticulturae, 249: 177-184.