Energy and environmental performance of a near-zero-effluent rice straw to butanol production plant

IF 0.9 Q4 ENGINEERING, CHEMICAL

Indian Chemical Engineer Pub Date : 2020-10-13 DOI:10.1080/00194506.2020.1831406

S. Dutta, Shiladitya Ghosh, Dinabandhu Manna, R. Chowdhury

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引用次数: 4

Abstract

ABSTRACT Present article focuses on the energy and environmental performance of a rice straw (RS) biorefinery producing bio-butanol as the main product, ethanol and acetone as the by-products and combined heat and power. The analysis highlights the strategic usage of RS-derived glucose and xylose as primary substrates for biobutanol production. The principle of utilization of total carbon and the fulfillment of the criterion of zero-waste management has been followed along with the generation of in-house energy to offset the energy expenditure and reduce CO2 emission. The overall yields of butanol, ethanol and acetone are 28.53kg, 0.84kg and 6.61kg respectively from 100kg RS. By performing energy analysis in this system for 100kg RS, energy content of lignin, extractives and biogas introduced to CHP have been estimated to be 674.78MJ. Net energy input to the steam turbine of the CHP is 539.83MJ and the outputs of electricity and heat energy are 130MJ and 194MJ, respectively. While the energy efficiency of CHP is 87%, the overall efficiency of the biorefinery through generation of alcohol/solvents and recovery of waste energy in the CHP is 68.2%. Due to the substitution of gasoline by butanol and through electricity generation, reduction of CO2 emission by 36.14kg is possible. GRAPHICAL ABSTRACT

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近零排放稻草丁醇生产装置的能源和环境性能

摘要本文重点研究了以生物丁醇为主要产物，乙醇和丙酮为副产物，热电联产的稻草（RS）生物精炼厂的能源和环境性能。该分析强调了RS衍生的葡萄糖和木糖作为生物丁醇生产的主要底物的战略用途。随着内部能源的产生，遵循了利用总碳和实现零废物管理标准的原则，以抵消能源支出并减少二氧化碳排放。100kg RS的丁醇、乙醇和丙酮的总产量分别为28.53kg、0.84kg和6.61kg。通过对100kg RS在该系统中进行能量分析，引入热电联产的木质素、提取物和沼气的能量含量估计为674.78MJ。热电联产汽轮机的净能量输入为539.83MJ，电能和热能输出分别为130MJ和194MJ，分别地虽然热电联产的能源效率为87%，但通过产生醇/溶剂和回收热电联产中的废能源，生物炼制的总体效率为68.2%。由于丁醇和发电取代了汽油，因此可以减少36.14kg的二氧化碳排放。图形摘要

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来源期刊

Indian Chemical Engineer ENGINEERING, CHEMICAL-

CiteScore

3.00

自引率

6.70%

发文量