Impact and feasibility of a membrane pre-concentration step in kraft recovery

MAY 2021 Pub Date : 2021-06-01 DOI:10.32964/tj20.5.331

Max KLEIMAN-LYNCH, Diego F. Rivera, Stephen H Frayne, Brent D. Keller

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引用次数: 2

Abstract

Emerging robust membrane systems can perform the first section of black liquor (BL) concentration by separating clean water from the black liquor stream using only mechanical pressure. By doing so, they can reduce the steam and energy required for BL concentration. Because of the high osmotic pressure of strong BL, a membrane system would not replace evaporators but would operate in series, performing the first section of BL concentration. In this work, we use a multi-effect evaporator (MEE) model to quantify the steam and energy savings associated with installing membrane systems of different sizes. When maintaining a constant BL solids throughput, we find that a pulp mill could reduce steam usage in its evaporators by up to 65%. Alternatively, a membrane system could also serve to increase BL throughput of the recovery train. We find that a membrane system capable of concentrating BL to 25% could double the BL solids throughput of a mill’s evaporators at the same steam usage. We also demonstrate that installing a membrane system before an MEE would minimally affect key operating parameters such as steam pressures and BL solids concentrations in each effect. This indicates that installing a membrane pre-concentration system would be nonintrusive to a mill’s operations.

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膜预富集步骤对硫酸盐回收的影响及可行性

新兴的强大膜系统可以通过仅使用机械压力从黑液流中分离净水来执行黑液(BL)浓缩的第一部分。通过这样做，它们可以减少浓缩BL所需的蒸汽和能量。由于强BL的高渗透压，膜系统不代替蒸发器，而是串联运行，完成第一段BL浓缩。在这项工作中，我们使用多效蒸发器(MEE)模型来量化与安装不同尺寸的膜系统相关的蒸汽和能源节约。当保持恒定的BL固体吞吐量时，我们发现纸浆厂可以减少蒸发器中高达65%的蒸汽使用量。另外，膜系统也可以用于增加回收列车的BL吞吐量。我们发现，在相同的蒸汽使用量下，能够将BL浓缩到25%的膜系统可以使工厂蒸发器的BL固体吞吐量增加一倍。我们还证明，在MEE之前安装膜系统可以将每个效果中的蒸汽压力和BL固体浓度等关键操作参数的影响降到最低。这表明，安装膜预浓缩系统将不会对工厂的操作造成影响。

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

MAY 2021

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