Reuse of banana fiber and peanut shells for the design of new prefabricated products for buildings
DOI:
https://doi.org/10.7764/RDLC.21.2.461Keywords:
polymer; fibers; crop waste treatment; insulating panelAbstract
This work presents a sustainable panel elaboration for housing interiors through banana fiber and peanut shells gathered from crop residues, consolidated with a polyester resin binder. A material characterization process was defined by forming three prototypes with different dosages. The prototypes performed physical and mechanical tests following recommendations from previous research and the standards. The results obtained were favorable regarding thermal transmittance percentages, achieving an average resistance comparable to non-structural medium density particleboard (MDP). Performance comparisons were also established, which depict the potential of these prototypes to contribute to the building industry, including the development of thermally comfortable environments.
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Amir, N., Abidin, K. A. Z., & Shiri, F. B. M. (2017). Effects of Fibre Configuration on Mechanical Properties of Banana Fibre/PP/MAPP Natural Fibre Reinforced Polymer Composite. Procedia Engineering, 184, 573–580. https://doi.org/10.1016/J.PROENG.2017.04.140
ASTM D1037-12 - Standard Test Methods for Evaluating Properties of Wood-Base Fiber and Particle Panel Materials. (n.d.). Retrieved March 23, 2022, from https://webstore.ansi.org/standards/astm/astmd103712
Belhadj, B., Bederina, M., Dheilly, R. M., Mboumba-Mamboundou, L. B., & Quéneudec, M. (2020). Evaluation of the thermal performance parameters of an outside wall made from lignocellulosic sand concrete and barley straws in hot and dry climatic zones. Energy and Buildings, 225, 110348. https://doi.org/10.1016/J.ENBUILD.2020.110348
Binici, H., & Aksogan, O. (2017). Insulation material production from onion skin and peanut shell fibres, fly ash, pumice, perlite, barite, cement and gypsum. Materials Today Communications, 10, 14–24. https://doi.org/10.1016/J.MTCOMM.2016.09.004
Chinnu, S. N., Minnu, S. N., Bahurudeen, A., & Senthilkumar, R. (2021). Recycling of industrial and agricultural wastes as alternative coarse aggregates: A step towards cleaner production of concrete. Construction and Building Materials, 287, 123056. https://doi.org/10.1016/J.CONBUILDMAT.2021.123056
Comisión para la Cooperación Ambiental, Montreal, C. (2014). La quema de residuos agricolas:fuentes de dioxinas. http://www.cec.org/files/documents/publications/11405-la-quema-de-residuos-agr-colas-es-una-fuente-de-dioxinas-es.pdf
Dönmez Çavdar, A., Yel, H., Kalaycioǧlu, H., & Hiziroglu, S. (2013). Effect of waste melamine impregnated paper on properties of oriented strand board. Materials & Design, 51, 751–755. https://doi.org/10.1016/J.MATDES.2013.04.052
FAO. (2000). Análisis del mercado del banano. 2000. http://www.fao.org/3/ca6911en/CA6911EN_TR4SP.pd
FAO. (2002). Perspectivas para el medio ambiente Agricultura y medio ambiente. https://www.fao.org/documents/card/es/c/86e794af-3bcb-5e9f-a7ab-60157310ebfe/
Gairola, S. P., Tyagi, Y. K., Gangil, B., & Sharma, A. (2021). Fabrication and mechanical property evaluation of non-woven banana fibre epoxy-based polymer composite. Materials Today: Proceedings, 44, 3990–3996. https://doi.org/10.1016/J.MATPR.2020.10.103
Gatani, M., Argüello, R., & Sesín, S. (2010). Effect of chemical treatments on the mechanical properties of peanut shell and cement blends. Materiales de Construcción, 60(298), 137–147. https://doi.org/10.3989/MC.2010.46908
Ge, S., Wu, Y., Peng, W., Xia, C., Mei, C., Cai, L., Shi, S. Q., Sonne, C., Lam, S. S., & Tsang, Y. F. (2020). High-pressure CO2 hydrothermal pretreatment of peanut shells for enzymatic hydrolysis conversion into glucose. Chemical Engineering Journal, 385, 123949. https://doi.org/10.1016/J.CEJ.2019.123949
Guna, V., Ilangovan, M., Rather, M. H., Giridharan, B. V., Prajwal, B., Vamshi Krishna, K., Venkatesh, K., & Reddy, N. (2020). Groundnut shell / rice husk agro-waste reinforced polypropylene hybrid biocomposites. Journal of Building Engineering, 27, 100991. https://doi.org/10.1016/J.JOBE.2019.100991
Hernández, R., & Mendoza, C. P. (2018). Metodología de la investigación: las tres rutas cuantitativa, cualitativa y mixta. Mc Graw Hill, 1(Mexico), 714.
ISO - ISO 8302:1991 - Thermal insulation — Determination of steady-state thermal resistance and related properties — Guarded hot plate apparatus. (n.d.). Retrieved March 23, 2022, from https://www.iso.org/standard/15422.html
Jami, T., Karade, S. R., & Singh, L. P. (2019). A review of the properties of hemp concrete for green building applications. Journal of Cleaner Production, 239, 117852. https://doi.org/10.1016/J.JCLEPRO.2019.117852
Koul, B., Yakoob, M., & Shah, M. P. (2022). Agricultural waste management strategies for environmental sustainability. Environmental Research, 206, 112285. https://doi.org/10.1016/J.ENVRES.2021.112285
Laxshaman Rao, B., Makode, Y., Tiwari, A., Dubey, O., Sharma, S., & Mishra, V. (2021). Review on properties of banana fiber reinforced polymer composites. Materials Today: Proceedings, 47, 2825–2829. https://doi.org/10.1016/J.MATPR.2021.03.558
Maraveas, C. (2020). Production of Sustainable Construction Materials Using Agro-Wastes. Materials 2020, Vol. 13, Page 262, 13(2), 262. https://doi.org/10.3390/MA13020262
Merino, M. del R., Rodríguez, J. G., Martínez, F. F., & Astorqui, J. S. C. (2017). Viability of using olive stones as lightweight aggregate in construction mortars. Revista de La Construcción. Journal of Construction, 16(3), 431–438. https://doi.org/10.7764/RDLC.16.3.431
Nautiyal P.C., M. D. (2002). Groundnut post-harvest operations. http://www.fao.org/publications/card/en/c/30524096-c4bf-44d5-9895-5e76bebe8468/
Nensok, M. H., Azree, M., Mydin, O., & Awang, H. (2021). Optimization of mechanical properties of cellular lightweight concrete with alkali treated banana fiber. Revista de La Construcción. Journal of Construction, 20(3), 491–511. https://doi.org/10.7764/RDLC.20.3.491
OECD. (2008). Environmental Performance of Agriculture at a Glance. OECD. https://doi.org/10.1787/9789264046788-en
ONU. (2020). La Agenda para el Desarrollo Sostenible. https://www.un.org/sustainabledevelopment/es/development-agenda/
ONU. (2021). Documentación de la ONU : Medio ambiente. https://research.un.org/es/docs/environment/conferences
Pinto, J., Vieira, B., Pereira, H., Jacinto, C., Vilela, P., Paiva, A., Pereira, S., Cunha, V. M. C. F., & Varum, H. (2012). Corn cob lightweight concrete for non-structural applications. Construction and Building Materials, 34, 346–351. https://doi.org/10.1016/J.CONBUILDMAT.2012.02.043
Ramesh, M., Sri Ananda Atreya, T., Aswin, U. S., Eashwar, H., & Deepa, C. (2014). Processing and Mechanical Property Evaluation of Banana Fiber Reinforced Polymer Composites. Procedia Engineering, 97, 563–572. https://doi.org/10.1016/J.PROENG.2014.12.284
Rojas, C., Cea, M., Iriarte, A., Valdés, G., Navia, R., & Cárdenas-R, J. P. (2019). Thermal insulation materials based on agricultural residual wheat straw and corn husk biomass, for application in sustainable buildings. Sustainable Materials and Technologies, 20, e00102. https://doi.org/10.1016/J.SUSMAT.2019.E00102
Shafigh, P., Mahmud, H. Bin, Jumaat, M. Z., & Zargar, M. (2014). Agricultural wastes as aggregate in concrete mixtures – A review. Construction and Building Materials, 53, 110–117. https://doi.org/10.1016/J.CONBUILDMAT.2013.11.074
Thongtha, A., Maneewan, S., Punlek, C., & Ungkoon, Y. (2014). Investigation of the compressive strength, time lags and decrement factors of AAC-lightweight concrete containing sugar sediment waste. Energy and Buildings, 84, 516–525. https://doi.org/10.1016/J.ENBUILD.2014.08.026
UNE EN 310:1994 Wood-based panels - Determination of modulus of elasticity in bending and of bending strength - European Standards. (n.d.). Retrieved March 23, 2022, from https://www.en-standard.eu/une-en-310-1994-wood-based-panels-determination-of-modulus-of-elasticity-in-bending-and-of-bending-strength/
UNE EN 312:2010 Particleboards - Specifications - European Standards. (n.d.). Retrieved March 23, 2022, from https://www.en-standard.eu/une-en-312-2010-particleboards-specifications/
UNE EN 317:1994 Particleboards and fibreboards - Determination of swelling in thickness after immersion in water - European Standards. (n.d.). Retrieved March 23, 2022, from https://www.en-standard.eu/une-en-317-1994-particleboards-and-fibreboards-determination-of-swelling-in-thickness-after-immersion-in-water/
UNE EN 323:1994 Wood-based panels - Determination of density - European Standards. (n.d.). Retrieved March 23, 2022, from https://www.en-standard.eu/une-en-323-1994-wood-based-panels-determination-of-density/
USDA. (2019). Peanut Explorer. https://ipad.fas.usda.gov/cropexplorer/cropview/commodityView.aspx?startrow=1&cropid=2221000&sel_year=2019&rankby=Production
World Population Clock: 7.9 Billion People (2022) - Worldometer. (n.d.). Retrieved March 23, 2022, from https://www.worldometers.info/world-population/
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Copyright (c) 2022 Eddie Echeverría-Maggi, Vicente Flores-Alés, Juan Jesús Martín-del-Río
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