Removal of Dye Using Lignin-Based Biochar/Poly(ester amide urethane)Nanocomposites from Contaminated Wastewater

The pursuit of incorporating eco-friendly reinforcing agents in polymer composites has accentuated the exploration of various natural biomass-derived materials.The burgeoning environmental crisis spurred by the discharge of synthetic dyes into wastewater has catalyzed the search for effective and sustainable treatment technologies.Among the various sorbent materials explored,biochar,being renewable,has gained prominence due to its excellent adsorption properties and environmental sustainability.It has also emerged as a focal point for its potential to replace other conventional reinforcing agents,viz.,fumed silica,aluminum oxide,treated clays,etc.This study introduces a novel class of polymer nanocomposites comprising of lignin-based biochar particles and poly(ester amide urethane)matrix via a feasible method.The structural evaluation of these nanocomposites was accomplished using Fourier-transform infrared spectroscopy,X-ray photoelectron spectroscopy,and powder X-ray diffraction.The polymer nanocomposites exhibited superior mechanical properties with an increment in tensile strength factor by 45%in comparison to its pristine matrix,along with an excellent toughness value of 90.22 MJm^(−3)at a low loading amount of only 1 wt%.The composites showed excellent improvement in thermal properties with a sharp rise in the glass transition temperature(Tg)value from−28.15℃to 84℃,while also championing sustainability through inherent biodegradability attributes.Beyond their structural prowess,these polymer nanocomposites demonstrated excellent potential as adsorbents,displaying efficient removal of malachite green and tartrazine dyes from aqueous systems with a removal efficiency of 87.25%and 73.98%,respectively.The kinetics study revealed the pseudo second order model to be the precision tool to assess the dye removal study.Complementing this,the Langmuir adsorption isotherm provided a framework to assess the sorption features of the polymer nanocomposites.Overall,these renewable biochar integrated polymer matrices boast remarkable recovery capabilities up to seven cycles of usage with an excellent dye recovery percentage of 95.21%for the last cycle,thereby defining sustainability as well as economic feasibility.

New Phase Transfer Agent for Dye: Application for Hyperbranched Poly (ester-amine)

Hydrophilic hyperbranched poly(ester-amine) (HPEA) synthesized from diethanolamine and methyl acrylate was used as phase transfer agent for the first time to transfer methyl orange (MO) from water into chloroform. This process was quantified by UV-Vis spectra. A possible mechanism was put forward based on the formation of amphiphilic aggregates.

Dyeing wastewater treatment with a complex adsorption-coagulation agent

To remove effectively the pollutants from printing and dyeing wastewater, a new complex adsorption-coagulation agent was developed and employed in dyeing wastewater treatment. The experimental results showed that better removals of COD, turbidity and color could be efficiently realized under the operating conditions of mixing at 150 r/min, reacting within 5 min and dosing at 15 g/L and 20 g/L, respectively. Combined with the settled sludge, the agent could be recycled for further adsorption and coagulation within 10 times. Compared to the conventional coagulants, the newly-developed agent had such merits as suitability for wide pH range of wastewater, less sludge production, reutilization of the condensed sludge and low operation cost.

真丝织物的植物染料染色

采用植物红和植物蓝染料对真丝织物进行直接染色,探讨了染液浓度、染色pH、染色温度、染色时间、元明粉用量、固色剂用量对真丝织物染色效果的影响。通过正交试验得到的最佳染色工艺为:植物红染料质量分数1.00%(omf),染液pH为3,染色温度90℃,染色时间40 min,元明粉质量浓度5 g/L,固色剂质量分数1%;植物蓝染料质量分数1.00%(omf),染液pH为7,染色温度90℃,染色时间55 min,元明粉质量浓度5 g/L,固色剂质量分数1%。染色织物具有较好的耐皂洗色牢度、耐摩擦色牢度和耐汗渍色牢度,基本达到3~4级以上。

胍改性超支化聚酰胺-胺固色剂的制备及应用

以丙烯酸甲酯、二乙烯三胺、己二胺单体为原料,通过Michael加成反应和酰胺化反应合成了端氨基超支化聚酰胺-胺。为进一步提升固色性能,引入盐酸胍单体进行端氨基改性制得胍改性超支化聚酰胺-胺,并用于活性染料染色纯棉织物的固色整理。结果表明,自制胍改性超支化聚酰胺-胺固色剂的固色效果优异,染色织物耐皂洗色牢度和耐干摩擦色牢度均提高1级,耐湿摩擦色牢度提高半级及以上。固色整理对染色织物色光影响小。

石榴皮染料在棉织物环保染色中的应用

针对石榴皮色素在棉织物染色中存在的低色牢度、金属媒染剂和化学固色剂导致环境污染以及人体危害等问题,通过优化石榴皮直接染色棉织物的染色工艺,选择3种天然媒染剂和3种金属媒染剂以不同媒染方式染色。利用天然松香固色剂对染色后的棉织物进行固色处理,探讨天然媒染剂提高织物染色性能的可行性,评估松香天然固色剂的固色效果以及不同染色工艺对石榴皮染色棉织物的染色性能的影响。结果表明,石榴皮直接染色棉织物最佳工艺:温度为80℃,染色时间为90min,pH值为7.0;经天然媒染剂媒染(茶卡盐后媒染)的织物可达到最大K/S值(7.64);经固色后染色棉织物的K/S值可提高至10.23,色牢度最高可达4~5级、5级;染色棉织物经过不同的染色工艺,可呈现不同的色相。

多Agent动态调度方法在染色车间调度中的应用

为解决复杂、繁琐的染色车间调度问题,根据印染生产过程的工艺特点和约束条件,建立了染色车间作业调度问题模型。为了提高调度系统对生产环境经常发生变化的自适应能力和全局优化能力,提出了一种基于蚂蚁智能与强化学习相结合的协商策略的多Agent动态调度方法。在该方法中,智能Agent能根据行为的历史反馈和立即反馈来选择相应的行为,也能根据算法的历史奖励来选择相应的智能调度算法,从而把一小部分工序任务的实时局部优化和大部分工序任务的全局优化结合起来。调度实例的求解结果验证了该方法的有效性。

基于多Agent的印染企业生产过程监控系统

针对印染企业生产规模扩大后带来的印染设备和监控系统多样化和分散化的特点,提出了一种基于Agent(智能体)技术的染厂生产过程监控系统。采用层次结构和现场总线技术实现异构印染设备和软件系统的硬件连接,采用多Agent技术实现异构印染设备和软件系统的功能集成。讨论了组成染厂生产过程监控系统的多Agent模型和结构。该生产过程监控系统可以与印染企业的ERP系统、生产过程管理系统和车间自动控制系统之间进行集成,实现印染企业的管控一体化,达到快捷生产的目的。

锦纶酸性染料染色提升剂的应用

为提高酸性染料对锦纶中深色染色的上染百分率,采用锦纶染色提升剂L230与酸性染料对锦纶织物进行同浴染色,探究提升剂用量、染色温度、时间、染料用量、染色pH值对锦纶织物染色性能的影响,测试锦纶的染色牢度。研究结果表明:染色体系中加入提升剂后pH值对锦纶染色促进的作用减弱,提升剂L230对锦纶织物的提升效果明显,当提升剂用量为1.0g/L时,锦纶织物的上染率显著提高。弱酸性深蓝5R和中性黑BL对锦纶染色的上染百分率和K/S值均随染色时间、温度的增加而增加。提升剂的加入对锦纶织物的染色牢度无影响。

棉用活性染料无醛固色剂的合成及应用

以二甲胺和环氧氯丙烷为反应单体,乙二胺为交联单体,合成了二甲胺聚阳离子型活性染料用无甲醛固色剂,优化的合成条件为n(二甲胺)∶n(环氧氯丙烷)=1∶1.5,乙二胺质量为反应单体质量的6%,反应温度65℃,反应时间4 h。固色后织物的耐干摩擦色牢度达4~5级,耐湿摩擦色牢度达3级及以上,耐皂洗色牢度在4级及以上,色光变化小,其固色效果达到同类市售固色剂。

单季铵盐型防沾皂洗剂的制备及其应用性能

为提高酸性染料皂洗剂的防沾色效果,以脂肪胺聚氧乙烯醚1815为原料,以环氧氯丙烷为季铵化剂,合成1815单季铵盐,并与非离子表面活性剂平平加O-25和阴离子表面活性剂SDS复配,制得1815单季铵盐类防沾皂洗剂。研究了合成工艺因素对1815单季铵盐产率的影响,优化了1815单季铵盐的合成工艺条件,测试了1815单季铵盐防沾皂洗剂的皂洗效果,并与市售及同类皂洗剂进行比较。结果表明,1815单季铵盐的合成优化工艺条件为:n(1815):n(环氧氯丙烷)=1∶2.5,反应温度80℃,反应时间4 h,反应pH=8.0。单季铵盐防沾皂洗剂的沾色样K/S值为0.6098,皂洗残液吸光度为0.2713,染色织物耐皂洗色牢度达4~5级,表明1815单季铵盐防沾皂洗剂具有良好的防沾色性能和净洗效果。

沸石鞣剂和铬鞣剂复鞣对艾力特AT鞣革纤维吸收阴离子染料性能的影响

选用沸石鞣剂和铬鞣剂分别对有机鞣剂艾力特AT鞣制的白湿革进行复鞣处理,运用单因素变量法研究复鞣后的革纤维对阴离子染料直接兰80和酸性红249的吸收特性。使用扫描电子显微镜、物理吸附仪-比表面积分析仪、纳米粒度表面电位分析仪对复鞣后的革纤维松散程度及等电点进行表征,结果表明在沸石鞣剂和铬鞣剂复鞣体系下,艾力特AT鞣革纤维的等电点均由5.5提高到7.0左右,纤维比表面积增加且松散程度提高。这说明在艾力特AT鞣革的湿染整过程中,沸石鞣剂与铬鞣剂的复鞣化学机制相似。此外,复鞣后革纤维吸收阴离子染料的能力有所提升,吸收结合机制都以化学反应为主,吸收过程均符合二级动力学模型和Langmuir等温模型。研究结果可为无铬鞣体系鞣革的湿染整加工工艺制定提供理论支撑。

锦纶的快速染色工艺

锦纶快速匀染剂Deglel(得格乐)■PAX具有卓越的缓染性及平缓的上染速率,较强的移染性,对色光影响小,将其用在锦纶染色中,可以缩短染色时间,提高匀染性,达到锦纶快速染色的目的。经大生产实践,该染色工艺时间减少50~60 min,且可有效防止锦纶染色易产生布面色花、阴阳面、段差等问题。

高温匀染剂的制备及应用性能

采用自制的阴离子表面活性剂、PEG400MO和PEG600MO等复配得到一种新型的高温匀染剂,测试此高温匀染剂对分散染料缓染性、移染性、高温分散性和色牢度等的影响。结果表明,自制的高温匀染剂具有优异的缓染性、移染性、高温分散性,同时色牢度也较好。

尼龙染深剂在锦纶染色中的应用探讨

尼龙用酸性染料染色深色系列,加入尼龙染深剂2.0 g/L,可以提升深度10个百分点,能够有效提高染色上染率;降低染色温度至80℃,染色深度也有所提升;对织物的色牢度无影响。

涤纶耐高温增白剂TF-9021S的应用性能

探讨高温荧光增白剂TF-9021S用量、优化定形温度、耐焙烘性能,分析水质硬度及pH对增白效果的影响。结果表明:TF-9021S具有良好的提升性能,在210℃时定形白度较好,高温焙烘后白度几乎没有下降;在不同pH及水质硬度下白度差异不大,并具有良好的耐日晒、耐氯漂及抗酚黄变性能,是一种性能优异的耐高温涤纶增白剂。

耐碱涤纶匀染剂TF-212WL的应用性能研究

前处理染色一浴法要求涤纶匀染剂耐碱稳定性好,而目前普通涤纶匀染剂多为脂肪醇聚氧乙烯醚与脂肪酸酯类的复配物,其在强碱条件下易水解,失去对分散染料的亲和力、乳化力等,无法用于前处理、染色一浴用匀染剂。针对这一问题,文章研究了耐碱涤纶匀染剂TF-212WL在不同碱剂条件下的应用性能,结果表明,其在不同碱剂条件下均能明显提高耐碱分散染料的高温分散性及移染性能。

染料防尘剂的制备与研究

提升防尘剂中高沸点、高黏度组分含量,引入合适HLB值生物基乳化剂和双子型表面活性剂,可以降低防尘剂在高温下的挥发度,提高其防尘性能、耐电解质性能、储存稳定性和乳化性能,且对染料色光没有影响,具有良好的应用推广前景和市场竞争力。

锦/棉混纺织物防沾色优化染色工艺

锦/棉混纺织物染色时,活性染料常对锦纶产生沾色,造成织物的色牢度下降及色光变化。用防沾剂对锦/棉混纺织物进行处理,以减少活性染料对锦纶的沾色情况,测试并分析了预处理温度、预处理时间、HAc用量、防沾剂用量、皂洗温度对锦纶防沾色效果的影响,同时探究了防沾剂预处理对锦纶染色的影响。当预处理温度为80℃、HAc用量为0.6 g/L、防沾剂用量为2.0 g/L、保温时间为20 min、皂洗温度为80℃时,锦纶防沾色效果最好。在优化预处理工艺下,锦纶防沾色剂不仅可有效防止活性染料对锦纶的沾色,而且对染色后织物的深度、耐汗渍色牢度、耐皂洗色牢度、耐摩擦色牢度无影响。

Preparation and Dyeing Performance of a Novel Crosslinking Polymeric Dye Containing Flavone Moiety

A yellow crosslinking polymeric dye was prepared by grafting the flavone moiety containing azo chromophore onto polyvinylamine backbone.The λ max of this polymeric dye in water is 382 nm.The polymeric dye is fixed to silk and cotton with a crosslinking agent,2-chloro-4,6-di(aminobenzene-4'-β-sulphatoethylsulphone)-1,3,5-s-triazine,which acts as a bridge between the fiber and dye molecules.The fixation of this polymeric dye reaches 99% and the dyed samples exhibit excellent rubbing and washing fastness.