Exploration of Biomass for the Production of Bioethanol: “A Process Modelling and Simulation Study”

سال انتشار: 1400
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 203

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شناسه ملی سند علمی:

JR_RERA-2-1_004

تاریخ نمایه سازی: 20 تیر 1400

چکیده مقاله:

Bio-ethanol is a clean and renewable fuel that is significantly gaining attention, mainly via its major environmental benefits produced from diverse resources. The campaign for the establishment of biorefineries and encouragement of fossil fuels is gradually gaining greater attention. This research seeks to comparatively investigates material requirement, production yield, and total equipment cost involved in the rice-husk and maize-cob transformation into bioethanol fuel for large-scale production using process modeling and simulation study approach to promote potential investors' interest. This analysis was carried out using a simulator (Aspen HYSYS) and a computational package (MATLAB). The evaluation entails modeling, simulating, material, and energy analysis, including process equipment sizing and cost for the plants. Comparative material analysis of the yield from the model process for the use of biomasses reveals that ۹.۹۴kg and ۷.۳۲kg of fuel-grade bioethanol would be obtained using ۰.۰۳kg and ۰.۰۲kg of enzymes for every ۱kg of rice husk and maize cob charge in the plant, respectively, per hour. Analysis of the plants' energy flow shows that the maize cob transformation into bioethanol fuel required more energy than the rice husk-based plant confirming maize cob conversion to be more energy-intensive than rice husk. Moreover, the equipment cost analysis indicated that it would cost ۴۷۳۹.۸۷ and ۱۷۵۷.۳۶ to process a kilogram of biomass (rice husk and maize cob) into fuel-grade bioethanol, respectively, per hour. Ultimately, this study's findings identify rice husk's use to be of high yield while maize cob would be making the production less capital intensive.

نویسندگان

T. Oyegoke

Ahmadu Bello University, Department of Chemical Engineering, Zaria, Nigeria.

M.Y. Sardauna

Ahmadu Bello University, Department of Chemical Engineering, Zaria, Nigeria.

H.A. Abubakar

Ahmadu Bello University, Department of Chemical Engineering, Zaria, Nigeria.

E. Obadiah

Ahmadu Bello University, Department of Chemical Engineering, Zaria, Nigeria.

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  • J. M. Hernández-Salas et al., “Comparative hydrolysis and fermentation of ...
  • R. C. Saxena, D. K. Adhikari, and H. B. Goyal, ...
  • Q. Kang, L. Appels, T. Tan, and R. Dewil, “Bio-ethanol ...
  • C. A. Cardona and Ó. J. Sánchez, “Fuel ethanol production: ...
  • J. R. Mielenz, “Ethanol production from biomass: Technology and commercialization ...
  • P. Sassner, M. Galbe, and G. Zacchi, “Techno-economic evaluation of ...
  • K. Belkacemi and S. Hamoudi, “Enzymatic hydrolysis of dissolved corn ...
  • C. N. Ogbonna and O. C. Eric, “Economic feasibility of ...
  • T. Oyegoke, F. N. Dabai, M. Jaju, and B. Y. ...
  • A. Abemi, T. Oyegoke, F. N. Dabai, and B. Y. ...
  • T. Oyegoke and F. Dabai, “Techno-economic feasibility study of bio-ethanol ...
  • T. Oyegoke and F. N. Dabai, “Techno-economic feasibility study of ...
  • O. O. Ajayi, K. R. Onifade, A. Onadeji, and T. ...
  • G. M. Sobamowo and S. J. Ojolo, “Techno-Economic Analysis of ...
  • T. Oyegoke and B. E. Jibril, “Design and Feasibility Study ...
  • M. D. Abbas, A. M. Falih, and K. G. M. ...
  • M. M. Amirrud and M. Shahin, “Sensitivity and Uncertainty Analysis ...
  • B. C. Saha and M. A. Cotta, “Enzymatic saccharification and ...
  • B. C. Saha and M. A. Cotta, “Lime pretreatment, enzymatic ...
  • H. Rabemanolontsoa and S. Saka, “Comparative study on chemical composition ...
  • Y. Sun and J. Cheng, “Hydrolysis of lignocellulosic materials for ...
  • J. O. Madu and B. O. Agboola, “Bio-ethanol production from ...
  • R. Kaur and H. Singh, “Bio-ethanol Production from Rice-Husk using ...
  • W. Nachaiwie, S. Lumyong, R. P. Hon, K. Yoshioka, and ...
  • J. Orji et al., “Bio-ethanol Production from Corncob Hydrolyzed by ...
  • A. D. Tambuwal, A. S. Baki, and A. Bello, “Bio-ethanol ...
  • U. G. Akpan, A. S. Kovo, M. Abdullahi, and J. ...
  • R. K. Sinnott, Coulson & Richardson’s Chemical Engineering: “Chemical Engineering ...
  • W. D. Seider, J. D. Seader, and D. R. Lewin, ...
  • J. A. Quintero and C. A. Cardona, “Process simulation of ...
  • J. A. Quintero, J. Moncada, and C. A. Cardona, “Techno-economic ...
  • T. Richard, J. A. Bhattacharyya, and D. Shaeiwitz, Analysis, Synthesis, ...
  • نمایش کامل مراجع