A Comparison of EFB to Ethanol Production by Integrating Between RBD Palm Oil and EFB Pulping Plant: An Assessment for Energy, Environmental and Economical Advantages

IF 1.4 4区管理学 Q2 ENGINEERING, MULTIDISCIPLINARY

International Journal of Technology Management Pub Date : 2023-06-28 DOI:10.14716/ijtech.v14i4.6015

A. Setiawan, A. H. I. Putri, T. B. Bardant, R. Maryana, Y. Sudiyani, M. Muryanto, E. Triwahyuni, D. Dahnum, N. Rinaldi, Y. Irawan, T. Ahamed, R. Noguchi

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引用次数: 0

Abstract

. A comparative evaluation between two scenarios to utilize Empty Fruit Bunch (EFB) biomass residue for producing bioethanol was performed. The simulations included EFB-to Ethanol integrated into the Refined, Bleached & Deodorized (RBD) palm oil scenario as the first archetype and EFB-to-ethanol integrated with the pulping plant scenario as the second archetype. Literature reviews for each archetype were conducted to accomplish data for definitions, assumptions, and simulation analysis of each production stage. Ethanol production capacity was set at 255.55 kg as the basic calculation for mass and energy balances. The energy preference focused on energy efficiency and the environmental preference focused on consumed water and wastewater load. The simulation showed that excess energy from the Refined, Bleached & Deodorized Palm Oil (RBDPO) plant, which processes 5 tons of Fresh Fruit Bunch (FFB) equals to 82% of the required energy for producing 255.55 kg of ethanol. This required energy could also be supplied by excess energy from the combustion of 14.9 tons of dried black liquor in EFB pulping plant with 10.5 tons production capacity. The additional wastewater from the EFB-to-ethanol unit in the second archetype was only 2% of the wastewater from the EFB pulping plant with only a 5% increase in water consumption but it required a large production capacity. The first archetype could use 58.4% of the EFB waste. However, the required water increased from 5.3 m 3 to 20.88 m 3 for this archetype and required additional water treatment plant due to the different pollutant components from the additional installation units. The first archetype could gain additional income, which equals 18.5% of RBDPO sales. However, investment for integration of the first archetype was larger than the second archetype due to different types of additional installation units. Integration as in the second archetype required small modification and installation, with 2% additional income in 10.5 tons of pulp daily sales.

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RBD棕榈油与EFB制浆厂整合后EFB生产乙醇的比较:能源、环境和经济优势评价

．对利用空果束(EFB)生物质渣生产生物乙醇的两种方案进行了比较评价。模拟包括将EFB-to-乙醇集成到精炼、漂白和脱臭(RBD)棕榈油方案中作为第一个原型，将EFB-to-乙醇集成到制浆厂方案中作为第二个原型。对每个原型进行文献回顾，以完成每个生产阶段的定义、假设和模拟分析的数据。乙醇生产能力设定为255.55 kg，作为质量和能量平衡的基本计算。能源偏好侧重于能源效率，环境偏好侧重于消耗的水和废水负荷。模拟显示，加工5吨新鲜水果串(FFB)的精炼、漂白和脱臭棕榈油(RBDPO)工厂的多余能量相当于生产255.55公斤乙醇所需能量的82%。这一所需的能量也可以由生产能力为10.5吨的EFB制浆厂14.9吨干黑液燃烧产生的多余能量来提供。在第二个原型中，EFB制乙醇装置的额外废水仅为EFB制浆厂废水的2%，用水量仅增加5%，但它需要很大的生产能力。第一个原型可以使用58.4%的EFB废物。然而，该原型所需的水量从5.3立方米增加到20.88立方米，并且由于额外安装单元的不同污染物成分，需要额外的水处理厂。第一个原型可以获得额外收入，相当于RBDPO销售额的18.5%。然而，由于不同类型的附加安装单元，第一个原型的集成投资比第二个原型大。在第二个原型中，整合需要进行小的修改和安装，在每天10.5吨纸浆的销售中有2%的额外收入。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Technology Management 管理科学-工程：综合

CiteScore

2.70

自引率

3.60%

发文量

审稿时长

6-12 weeks

期刊介绍： The IJTM aims to provide a refereed and authoritative source of information in the field of managing with technology, and the management of engineering, science and technology. It seeks to establish channels of communication between government departments, technology executives in industry, commerce and related business, and academic experts in the field.