Cleaner Production Assessment of Fast Bordeaux GP Base

Organic Chemistry International Pub Date : 2011-06-05 DOI:10.1155/2011/752191

M. Mukhopadhyay, Rashmita Patel

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引用次数: 2

Abstract

The pilot plant study of cleaner production (CP) process of a dyes intermediate, Fast Bordeaux GP Base (2-nitro-p-anisidine), is presented in this work. The existing production process with acetic anhydride as raw material generates highly polluting (high chemical oxygen demand), huge-volume effluent, and thus the treatment is expensive. In the proposed process, raw material acetic anhydride in acetylation step is replaced with acetic acid. The reaction conditions like reaction time (3 h), temperature (120∘C) and molar ratio of p-anisidine and acetic acid (1 : 3.58) are optimized in the laboratory scale and implemented in pilot plant. The extent of conversion has been monitored by nitrite value test, and purity of product mixture is measured with thin-layer chromatography (TLC). The acidic wastewater quantity is dramatically reduced by incorporating recycling in washing scheme, and thus water consumption is reduced. Reduction in wastewater generation and reduction/elimination of treatment cost is also observed. Chemical oxygen demand (COD) of the effluent stream is reduced by the recovery of by-products sodium acetate and spent acid. The technoeconomical feasibility studies show that the proposed CP options are highly economical and environmental friendly.

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快速波尔多GP基地清洁生产评价

介绍了染料中间体Fast Bordeaux GP碱(2-硝基-对茴香胺)清洁生产工艺的中试研究。现有的以乙酸酐为原料的生产工艺污染大(化学需氧量高)，出水量大，处理费用昂贵。在该工艺中，乙酰化步骤中的原料乙酸酐被乙酸取代。对反应时间(3 h)、反应温度(120°C)、对茴香胺与乙酸的摩尔比(1:3 .58)等条件进行了实验室优化，并在中试装置中实施。用亚硝酸盐值法监测转化程度，用薄层色谱法测定混合产物纯度。通过在洗涤方案中加入循环利用，酸性废水的数量大大减少，从而减少了用水量。还观察到减少废水产生和减少/消除处理费用。通过回收副产品醋酸钠和废酸，降低了出水的化学需氧量。技术经济可行性研究表明，建议的CP方案是高度经济和环保的。

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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Organic Chemistry International

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