Efficient and ecological leather processing: replacement of lime and sulphide with dispase assisted by 1-allyl-3-methylimidazolium chloride

Journal of Leather Science and Engineering Pub Date : 2022-05-15 DOI:10.1186/s42825-022-00086-3

Hui Liu, Keyong Tang, Xiumin Li, Jie Liu, Xuejing Zheng, Ying Pei

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引用次数: 3

Abstract

Leather is a collagen-based biomass prepared from raw skins or hides by a series of unit operations, in which the unhairing and fiber opening are extremely important operations. However, the conventional Na₂S/Ca(OH)₂ system used in unhairing and fiber opening has given rise to the pollution to the environment. It is necessary to develop substitute technology for the Na₂S/Ca(OH)₂. In the present study, 1-allyl-3-methylimidazolium chloride ([AMIm]Cl) was used to cooperate with dispase for cycle unhairing and one-pot beamhouse to recycle waste bovine hides and compared with conventional processing. During those processes, the mechanism of [AMIm]Cl-dispase synergistic unhairing and collagen fibers opening were studied. Besides, plant hazard, organic matter and [AMIm]Cl of wastewater from [AMIm]Cl-dispase process were respectively investigated and separated to evaluate the environmental and economic benefits of the [AMIm]Cl-dispase process. As a result, enzyme activity after unhairing by [AMIm]Cl-diapase system for using 5 times is higher than that by KCl-dispase system, and needs lower unhairing time, which is because of rapid penetration of [AMIm]Cl-dispase solution in bovine hides. For this reason, the tensile strength and elastic modulus of tanned leather from [AMIm]Cl-dispase process are higher than those from the KCl-diapase and conventional processes, and its hydrothermal shrinkage temperature is comparable to that of the conventional one. Because of the 58.13% lower wastewater discharge (WD), 66.60% lower total solids (TS), 97.23% lower ammonia nitrogen (NH₃-N), non-toxic wastewater and organic matter recovery in wastewater are reached from [AMIm]Cl-dispase process, which is expected to be an alternative to the conventional process to reduce environmental pollution and realize the sustainable development of technology for leather manufacturing.

Graphical abstract

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高效、生态的皮革加工:用1-烯丙基-3-甲基咪唑辅助剂取代石灰和硫化物

皮革是一种以胶原蛋白为基础的生物质，由生皮或生皮通过一系列的单元操作制备而成，其中脱毛和纤维打开是极其重要的操作。然而，传统的Na2S/Ca(OH)2体系在脱毛和开纤过程中对环境造成了污染。有必要开发Na2S/Ca(OH)2的替代技术。本研究采用1-烯丙基-3-甲基咪唑氯([AMIm]Cl)配合疾病进行循环脱毛和一锅梁房回收牛皮，并与常规处理方法进行比较。在此过程中，研究了[AMIm] cl - disase协同脱毛和胶原纤维打开的机制。对[AMIm]Cl-处理废水中的植物危害、有机物和[AMIm]Cl分别进行了调查和分离，评价了[AMIm]Cl-处理的环境效益和经济效益。结果表明，[AMIm] cl - disapase体系使用5次脱毛后的酶活性高于kcl - disapase体系，且脱毛时间较短，这是由于[AMIm] cl - disapase溶液在牛皮中的快速渗透。因此，[AMIm] cl - disapase工艺制革的拉伸强度和弹性模量高于kcl - disapase和常规工艺制革的拉伸强度和弹性模量，其水热收缩温度与常规工艺制革的水热收缩温度相当。[AMIm] cl处理工艺废水排放(WD)降低58.13%，总固相(TS)降低66.60%，氨氮(NH3-N)降低97.23%，废水无毒，废水中有机物回收，有望替代传统工艺，减少环境污染，实现皮革制造技术的可持续发展。图形抽象

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来源期刊

Journal of Leather Science and Engineering 工程技术-材料科学：综合

CiteScore

12.80

自引率

0.00%

发文量