Green Route Synthesis of Amorphous Silica from Oil Palm Decanter Cake: From Literature Review to Experiments
Abstract
Keywords
Full Text:
PDFReferences
Abdul Samat, N.A.S., Kamarul Jaman, U.Z., Saree, S., Mahmod, D.S.A., and Lai, J.C.H. (2021). Characteristics of calcined palm oil pastes for biosilica extraction as a function of calcination temperatures. Journal of Applied Research and Technology, 19(1), 23-34.
Adam, M.A., Sulaiman, A., Said, C.M.S., Som, A.M., Bahruddin, A.S., and Mokhtar, M.N. (2014). Preliminary study of oil palm decanter cake natural polymer composite (OPDC-NPC). Advanced Materials Research, 911, 40-44.
Agostinho, F.B., Tubana, B.S., Martins, M.S., and Datnoff, L.E. (2017). Effect of different silicon sources on yield and silicon uptake of rice grown under varying phosphorus rates. Plants, 6, 35.
Ajeel, S. A., Sukkar, K. A., and Zedin, N.K. (2021). Extraction high purity nanosilica corn cob by modified precipitation technique. Research Square, 2021, 1-10.
Alves, R.H., Reis, T.V.D.S., Rovani, S., and Fungaro, D.A. (2017). Green synthesis and characterization of biosilica produced from sugarcane waste ash. Journal of Chemistry, 2017, 6129305.
Anuar, M.F., Fen, Y.W., Zaid, M. H. M., Matori, K. A., and Khaidir, R. E. M. (2020). The physical and optical studies of crystalline silica derived from the green synthesis of coconuthusk ash. Applied Sciences, 10, 21-28.
Anuar, M.F., Fen, Y.W., Zaid, M.H.M., Matori, K.A., and Khaidir, R.E.M. (2018). Synthesis and structural properties of coconut husk as potential silica source. Results in Physics, 11, 1-4.
Azlin, M. N., and Syufiana, S. S. (2022). The preparation and characterization of silica from coconut husk. In Journal of Physics: Conference Series, 2266(1), 012011.
Azmi, M., Ismail, N., Rizamarhaiza, M., and Taib, H. (2016). Characterisation of silica derived from rice husk (Muar, Johor, Malaysia) decomposition at different temperatures. AIP Conference Proceedings, 1756, 020005.
Bakar, R.A., Yahya, R., and Gan, S.N. (2016). Production of high purity amorphous silica from rice husk. Procedia Chemistry, 19, 189-195.
Bangwar, D. K., Saand, A., Keerio, M.A., Soomro, M.A., and Bhatti, N. (2017). Development of an amorphous silica from rice husk waste. Engineering, Technology and Applied Science Research, 7, 2184-2188.
Channoy, C., Maneewan, S., Punlek, C., and Chirarattananon, S. (2018). Preparation and characterization of silica gel from bagasse ash. Advanced Materials Research, 1145, 44-48.
Chen, H., Wang, W., Martin, J. C., Oliphant, A. J., Doerr, P. A., Xu, J. F., and Sun, L. (2013). Extraction of lignocellulose and synthesis of porous silica nanoparticles from rice husks: a comprehensive utilization of rice husk biomass. ACS Sustainable Chemistry and Engineering, 1(2), 254-259.
Chindaprasirt, P. and Rattanasak, U. (2020). Eco-production of silica from sugarcane bagasse ash for use as a photochromic pigment filler. Scientific Reports, 10, 1-8.
Costa, J.A.S., Sarmento, V.H.V., Romão, L.P.C., and Paranhos, C.M. (2019). Adsorption of organic compounds on mesoporous material from rice husk ash (RHA). Biomas Conversion and Biorefinery, 10, 1105-1120.
Dewayanto, N., Husin, M.H.M., and Nordin, M.R. (2015). Solid fuels from decanter cake and other palm oil industry waste. Jurnal Teknologi, 76, 57-60.
Eko, H. and Chaiprasert, P. (2020). Enhancement of methane production from high solid anaerobic digestion of pretreated palm oil decanter cake using a modified solid inclined reactor. Journal of Chemical Technology and Biotechnology, 95, 781-790.
Harish, P. R., Arumugam, A., and Ponnusami, V. (2015). Recovery of silica from various low cost precursors for the synthesis of silica gel. The Pharma Letter, 7, 208-213.
Holubcik, M., Jandacka, J., Palacka, M., and Vician, P. (2016). Additives application to wheat straw to increasing the ash fusion temperature. AIP Conference Proceedings, 1768(1), 020014.
Kow, K.W., Yusoff, R., Aziz, A.A., and Abdullah, E. (2016). Determination of kinetic parameters for thermal decomposition of bamboo leaf to extract bio-silica. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 38, 3249-3254.
Kurniawan, T., Satria, D., Saputra, J. B., Bilad, M. R., Nordin, N. A. H. M., and Abdullah, H. (2022). Conversion of green silica from corn leaf into zeolites Na AX. Indonesian Journal of Science and Technology, 7(2), 171-186.
Lee, J.H., Kwon, J.H., Lee, J.W., Lee, H.S., Chang, J.H., and Sang, B.I. (2017). Preparation of high purity silica originated from rice husks by chemically removing metallic impurities. Journal of Industrial and Engineering Chemistry, 50, 79-85.
Liang, G. and Zhang, L. (2020). An improved process for the preparation of high-quality bio silica microparticles from rice husk ash. Waste and Biomass Valorization, 11, 2227-2233.
Lima, S. P. B. d., Vasconcelos, R. P. d., Paiva, O. A., Cordeiro, G. C., Chaves, M. R. d. M., Toledo Filho, R. D., and Fairbairn, E. d. M. R. (2011). Production of silica gel from residual rice husk ash. Quimica Nova, 34, 71-75.
Lunt, A. J., Chater, P., and Korsunsky, A. M. (2018). On the origins of strain inhomogeneity in amorphous materials. Scientific Reports, 8(1), 1-8.
Mosisa, M.T., Zereffa, E.A., Murthy, H.C.A., and Bekele, E. (2019). Extraction and characterization of bio-silica from sugarcanne bagasse ash of wonji sugar industry, Ethiopia. International Journal of Research and Analytical Reviews (IJRAR), 6, 609-618.
Mu, L., Zhao, C., Zhao, L., Chen, B., Xu, Z., Yang, Z., Shang, Y., and Yin, H. (2018). Mineralogical composition evolution and thermogravimetric characteristics of sewage sludge ash at different ashing temperatures. Energy and Fuels, 32, 12617-12629.
Nandiyanto, A. B. D., Permatasari, N., Sucahya, T. N., Abdullah, A. G., and Hasanah, L. (2017). Synthesis of potassium silicate nanoparticles from rice straw ash using a flame-assisted spray-pyrolysis method. IOP Conference Series: Materials Science and Engineering, 180(1), 012133.
Naqvi, H.J., Saeed, A., Umair, A., and Shah, F.H. (2011). Precipitated silica from wheat husk. Journal of the Pakistan Institute of Chemical Engineers, 39, 51-54.
Nath, H. P., Dutta, B. K., Bhuyan, N., Saikia, B. K., and Saikia, N. (2021). A comprehensive study on the transition metal–catalysed pyrolysis kinetics, thermodynamics and mechanisms of bamboo powder. Biomass Conversion and Biorefinery, 11, 1-15.
Ngoc, N.N., Thanh, L.X., Vinh, L.T., and Van Anh, B.T. (2018). High‐purity amorphous silica from rice husk: Preparation and characterization. Vietnam Journal of Chemistry, 56, 730-736.
Ninduangdee, P., Kuprianov, V.I., Cha, E.Y., Kaewrath, R., Youngyuen, P., and Atthawethworawuth, W. (2015). Thermogravimetric studies of oil palm empty fruit bunch and palm kernel shell: TG/DTG analysis and modeling. Energy Procedia, 79, 453-458.
Okoronkwo, E., Imoisili, P., and Olusunle, S. (2013). Extraction and characterization of amorphous silica from corn cob ash by sol-gel-method. Chemistry and Materials Research, 3(4), 68-72.
Ong, T. H., Hamzah, M. H., and Man, H. C. (2021). Optimization of palm oil extraction from decanter cake using soxhlet extraction and effects of microwaves pre-treatment on extraction yield and physicochemical properties of palm oil. Food Research, 5, 25-32.
Pa, F. C., Chik, A., and Bari, M. F. (2016). Palm ash as an alternative source for silica production. MATEC Web of Conferences, 78, 01062.
Patel, K.G., Shettigar, R.R., and Misra, N.M. (2017). Recent advance in silica production technologies from agricultural waste stream. Journal of Advanced Agricultural Technologies, 4, 274-279.
Permatasari, N., Sucahya, T.N., and Nandiyanto, A.B.D. (2016). Agricultural wastes as a source of silica material. Indonesian Journal of Science and Technology, 1(1), 82-106.
Pintana, P., and Tippayawong, N. (2016). Predicting ash deposit tendency in thermal utilization of biomass. Engineering Journal, 20(5), 15-24.
Prempeh, C. O., Formann, S., Schliermann, T., Dizaji, H.B., and Nelles, M. (2021). Extraction and Characterization of Biogenic Silica Obtained from Selected Agro-Waste in Africa. Applied Sciences, 11, 10363.
Prihastuti, H. and Kurniawan, T. (2022). Conversion of Indonesian coal fly ash into zeolites for ammonium adsorption. ASEAN Journal for Science and Engineering in Materials, 1(2), 75-84.
Quercia, G., Lazaro, A., Geus, J., and Brouwers, H. (2013). Characterization of morphology and texture of several amorphous nano-silica particles used in concrete. Cement and Concrete Composites, 44, 77-92.
Raeze, S., Sulaiman, A., Baharuddin, A.S., Mokhtar, M.N., and Busu, Z. (2017). Physico chemical properties of residual oil extracted from oil palm decanter cake. Pertanika Journal of Science and Technology, 25, 157-168.
Ragadhita, R. and Nandiyanto, A. B. D. (2022). Why 200° C is effective for creating carbon from organic waste (from thermal gravity (TG-DTA) perspective)?. ASEAN Journal for Science and Engineering in Materials, 2(2), 75-80.
Rahib, Y., Elorf, A., Sarh, B., Ezahri, M., Rahib, Y., and Bonnamy, S. (2019). International Journal of Renewable Energy Research, 9(4), 1606-1615.
Rangaraj, S. and Venkatachalam, R. (2017). A lucrative chemical processing of bamboo leaf biomass to synthesize biocompatible amorphous silica nanoparticles of biomedical importance. Applied Nanoscience, 7(5), 145-153.
Razak, M.N.A., Ibrahim, M.F., Yee, P.L., Hassan, M.A., and Abd-Aziz, S. (2013). Statistical optimization of biobutanol production from oil palm decanter cake hydrolysate by Clostridium acetobutylicum ATCC 824. BioResources, 8, 1758-1770.
Rovani, S., Santos, J. J., Corio, P., and Fungaro, D. A. (2018). Highly pure silica nanoparticles with high adsorption capacity obtained from sugarcane waste ash. ACS Omega, 3(3), 2618-2627.
Saceda, J.J.F., Leon, R.L.D., Rintramee, K., Prayoonpokarach, S., and Wittayakun, J. (2011). Properties of silica from rice husk and rice husk ash and their utilization for zeolite Y synthesis. Quimica Nova, 34, 1394-1397.
Sahad, N., Som, A.M., Baharuddin, A.S., Mokhtar, N., Busu, Z., and Sulaiman, A. (2014). Physicochemical characterization of oil palm decanter cake (OPDC) for residual oil recovery. BioResources, 9, 6361-6372.
Sahiron, N., Rahmat, N., and Hamzah, F. (2017). Characterization of sodium silicate derived from sugarcane bagasse ash. Malaysian Journal of Analytical Science, 21, 512-517.
Saleem, M., Rustam, M., Naqvi, H.J., Jabeen, S., and Akhtar, A. (2014). Synthesis of precipitated silica from corn cob by using organic acids. Science International, 27, 265-269.
Samantray, J., Anand, A., Dash, B., Ghosh, M. K., and Behera, and A. K. (2020). Sustainable process for the extraction of potassium from feldspar using eggshell powder. ACS Omega, 5(25), 14990-14998.
Setyawan, N. and Wulanawati, A. (2019). Simple extraction of silica nanoparticles from rice husk using technical grade solvent: effect of volume and concentration. IOP Conference Series: Earth and Environmental Science, 309, 012032.
Silviana, S. and Bayu, W.J., (2018). Silicon conversion from bamboo leaf silica by magnesiothermic reduction for development of Li-ion baterry anode. Matec Web of Conferences, 156, 05021.
Sobrosa, F. Z., Stochero, N. P., Marangon, E., and Tier, M. D. (2017). Development of refractory ceramics from residual silica derived from rice husk ash. Ceramics International, 43(9), 7142-7146.
Stopic, S., Wenz, F., Husovic, T. V., and Friedrich, B. (2021). Synthesis of silica particles using ultrasonic spray pyrolysis method. Metals, 11(3), 463.
Tepsour, M., Usmanbaha, N., Rattanaya, T., Jariyaboon, R., Prasertsan, P., and Kongjan, P. (2019). Biogas production from oil palm empty fruit bunches and palm oil decanter cake using solid-state anaerobic co-digestion. Energies, 12, 4368.
Terkula, I. D., Wuana, R. A., and Iorungwa, M. S. (2017). Preparation and characterization of ‘green’nano silica from rice husks. Chemistry and Materials Research, 9(6), 1.
Terzioglu, P., Yucel, S., and Kuş, C. (2019). Review on a novel biosilica source for production of advanced silica‐based materials: Wheat husk. Asia‐Pacific Journal of Chemical Engineering, 14, e2262.
Utama, P.S., Yamsaensung, R., and Sangwichien, C. (2018). Silica gel derived from palm oil mill fly ash. Songklanakarin Journal of Science and Technology, 40, 121-126.
Vamvuka, D. and Kakaras, E. (2011). Ash properties and environmental impact of various biomass and coal fuels and their blends. Fuel Processing Technology, 92(3), 570-581.
Yahaya, A.N.A., Hossain, M.S., and Edyvean, R. (2017). Thermal degradation and morphological changes of oil palm empty fruit bunch vermicompost. BioResources, 12, 8886-8900.
Yahya, A., Sye, C.P., Ishola, T.A., and Suryanto, H., (2010). Effect of adding palm oil mill decanter cake slurry with regular turning operation on the composting process and quality of compost from oil palm empty fruit bunches. Bioresource Technology, 101, 8736-8741.
Yang, X., Lu, D., Zhu, B., Sun, Z., Li, G., Li, J., Liu, Q., and Jiang, G. (2022). Phase transformation of silica particles in coal and biomass combustion processes. Environmental Pollution, 292, 118312.
Yusoff, M., Mohamed, E., Idris, J., Zainal, N.H., Ibrahim, M.F., and Abd-Aziz, S. (2019). Adsorption of heavy metal ions by oil palm decanter cake activated carbon. Makara Journal of Technology, 23, 59-64.
Zailani, W., Abdullah, M., Arshad, M., Burduhos-Nergis, D., and Tahir, M. (2020). Effect of iron oxide (Fe2O3) on the properties of fly ash based geopolymer. IOP Conference Series: Materials Science and Engineering, 877, 012017.
Zhang, H., Wang, X., and Li, Y. (2018). Measuring radiative properties of silica aerogel composite from FTIR transmittance test using KBr as diluents. Experimental Thermal and Fluid Science, 91, 144-154.
DOI: https://doi.org/10.17509/ijost.v8i2.53724
Refbacks
- There are currently no refbacks.
Copyright (c) 2022 Universitas Pendidikan Indonesia
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Indonesian Journal of Science and Technology is published by UPI.
View My Stats