Carboxyalkylated lignin derived coal wastewater slurry

IF 7.5 1区工程技术 Q2 ENERGY & FUELS

Fuel Pub Date : 2025-08-06 DOI:10.1016/j.fuel.2025.136451

Suqian Gu , Hussein A. Qulatein , Weijue Gao , Pedram Fatehi

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Abstract

Preparing coal water slurry from coal gasification wastewater as gasification/combustion feedstock offers a promising strategy for wastewater management and resource recovery. The primary challenge lies in optimizing slurry formulation to accommodate wastewater as the aqueous medium. This study demonstrated that carboxyalkylated lignin derivatives, i.e., biomass-based aromatic polymers, were effective dispersants for generating coal gasification wastewater slurry (CGWS). The alkyl chain lengths of carboxyalkylated lignin derivatives significantly influenced their molecular characteristics and, consequently, the physicochemical properties of the resulting slurry. Fundamentally, the dispersion performance of lignin derivatives and sodium methylene dinaphthalene sulfonate (NNO), as a commonly used dispersant for the slurry, was different. While NNO promoted dispersion via increasing electrostatic repulsion, the lignin derivatives promoted the slurry formulation primarily via grafting molecular structure. Among the tested lignin derivatives, CPr (carboxybutylated lignin) required the lowest dosage (0.20 wt%) and increased the solid concentration of the slurry from 50.42 wt% (NNO-CGWS) to 52.81 wt% (CPr-CGWS) at an apparent viscosity of 1000 mPa·s, while reducing its pseudo-plasticity. Additionally, lignin derivatives increased the calorific value of CGWS by 0.191 kcal/g using CPr at a dosage of 0.20 wt%. This work establishes carboxyalkylated lignin, particularly CPr, as a highly effective and eco-friendly dispersant for preparing value-added CGWS from industrial wastewater.

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羧烷基化木质素衍生煤废水浆

从煤气化废水中制备水煤浆作为气化/燃烧原料是一种很有前途的废水管理和资源回收策略。主要的挑战在于优化浆液配方，以适应废水作为水介质。研究表明，羧基烷基化木质素衍生物（即生物质基芳香族聚合物）是制备煤气化废水浆料（CGWS）的有效分散剂。羧基烷基化木质素衍生物的烷基链长度显著影响其分子特性，从而影响所得浆料的物理化学性质。从根本上说，木质素衍生物的分散性能与常用的浆料分散剂亚甲基二萘磺酸钠（NNO）是不同的。NNO通过增加静电斥力促进分散性，而木质素衍生物主要通过接枝分子结构促进浆液的形成。在木质素衍生物中，羧基丁基木质素（CPr）用量最低（0.20 wt%），在表观粘度为1000 mPa·s时，将料浆的固相浓度从50.42 wt% （NNO-CGWS）提高到52.81 wt% (CPr- cgws)，同时降低了其伪塑性。此外，木质素衍生物在0.20 wt%的CPr用量下使CGWS的热值增加了0.191 kcal/g。本工作确定了羧基烷基化木质素，特别是CPr，作为一种高效环保的分散剂，用于从工业废水中制备高附加值的CGWS。

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来源期刊

Fuel 工程技术-工程：化工

CiteScore

12.80

自引率

20.30%

发文量

3506

审稿时长

64 days

期刊介绍： The exploration of energy sources remains a critical matter of study. For the past nine decades, fuel has consistently held the forefront in primary research efforts within the field of energy science. This area of investigation encompasses a wide range of subjects, with a particular emphasis on emerging concerns like environmental factors and pollution.