A Study of the Tofu Industry Environmental Impact Condition and Scenario Treatment Using Life Cycle Assessment Approach

EPI International Journal of Engineering Pub Date : 2021-09-15 DOI:10.25042/epi-ije.022021.02

Intan Rahmalia, Syifa Khairun Nisa, Vita Palupi, Aninda Putri, I. W. Suryawan

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引用次数: 1

Abstract

One of the types of tofu industries in Indonesia is that the small-scale tofu industry was located in the East Jombor, Ketapang Village, to be precise, on the Blorong River. The Simplified Tofu Industry, with a 1300 kg/day production capacity, produces liquid waste that is disposed of into the Blorong River with a BOD parameter of 2,726 mg/L, COD of 4,972 mg/L, and TSS of 388 mg/L.These values greatly exceed the quality standards based on the Regional Regulation of Central Java Province Number 10 of 2004 concerning Tofu Industry. The entry of these pollutants into the Blorong River, over time, can cause water bodies to become toxic and pollute the Blorong River. Therefore, one of the efforts to protect this river's environmental conditions is to increase the efficiency of the Wastewater treatment plant and substitute the determined fuel through alternative scenarios. In the MBBR scenario, substituting diesel fuel into biomass is a type of biodiesel. Biodiesel has an advantage for the fire tube boiler industry because it can reduce exhaust emissions compared to diesel. Meanwhile, the existing wastewater treatment is substituted for the MBBR unit. The choice of MBBR as a wastewater treatment unit is because it is economical, does not require large land, is simple in development design, and is accessible in operation and maintenance. In the second scenario (SBR), a transition of Diesel fuel to LPG. LPG as a fuel input in the cooking process will result in cleaner emissions, especially on the SO2 parameter, and better because it has a higher heating value than diesel, 47,3 Tj/Gg. Both scenarios are analyzed regarding the magnitude of the impact on the environment using the OpenLCA method. The resulting impact magnitude on the OpenLCA method from each alternative is evaluated to obtain the best scenario. In the Tofu Industry, the best design the resulting impact is smaller than the SBR alternative.

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基于生命周期评价方法的豆腐产业环境影响状况及情景处理研究

印尼豆腐产业的一种类型是，小规模的豆腐产业位于East Jombor, Ketapang村，准确地说，在Blorong河上。简化豆腐产业生产能力1300公斤/天，产生的废液排入布龙江，BOD参数为2726 mg/L, COD为4972 mg/L, TSS为388 mg/L。这些值大大超过了2004年中爪哇省关于豆腐行业的第10号区域法规的质量标准。随着时间的推移，这些污染物进入布洛荣河会导致水体变得有毒并污染布洛荣河。因此，保护这条河的环境条件的努力之一是提高污水处理厂的效率，并通过替代方案替代确定的燃料。在MBBR方案中，用生物质代替柴油是一种生物柴油。生物柴油对于火管锅炉行业具有优势，因为与柴油相比，它可以减少废气排放。同时，用MBBR装置替代现有的废水处理。选择MBBR作为污水处理装置，是因为它经济、占地面积小、开发设计简单、运行维护方便。在第二种方案(SBR)中，柴油燃料向液化石油气的过渡。液化石油气作为烹饪过程中的燃料输入将导致更清洁的排放，特别是在SO2参数上，并且由于其热值高于柴油(47,3 Tj/Gg)而更好。使用OpenLCA方法分析了这两种场景对环境的影响程度。评估每个备选方案对OpenLCA方法产生的影响程度，以获得最佳方案。在豆腐工业中，最佳设计所产生的影响小于SBR替代方案。

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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EPI International Journal of Engineering

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