1、发表论文 [1] wenyuan zhu, fangyuan liang, hewei hou, yuting chen, xiaohui liu*, and xudong zhu. enzymatic synthesis of a polyol ester from levulinic acid and trimethylolpropane and its tribological behavior as potential biolubricant basestock[j]. polymers, 2020, 12, 2256 [2] 朱文远,姜波,寇佳文,金永灿. 酸性亚硫酸盐预处理对棉杆糖化效率的影响[j]. 纤维素科学与技术,2015,23(4):23-29 [3] 朱文远,张辉,吴波,周积学,盛长新,叶平. 填料对聚酯成形网磨损的影响[j]. 中华纸业,2014,35(24):6-9. [4] w. zhu, carl j. houtman, j.y. zhu, roland gleisner, k.f. chen. quantitative predictions of bioconversion of aspen by dilute acid and sporl pretreatments using a unified combined hydrolysis factor (chf)[j]. process biochemistry, 2012, 47:785-791. [5] 朱文远,张辉,吴波,周积学,盛长新,叶平. 造纸成形网技术进展及发展趋势[j]. 中国造纸,2012,31(8):61-65. [6] 朱文远. 当代高校教师教学技能中存在的问题分析与措施研究[j]. 教育界,2014,(27):60-61. [7] w. zhu, j.y. zhu*, r. gleisner, x.j. pan. on energy consumption for size-reduction and yields from subsequent enzymatic saccharification of pretreated lodgepole pine[j]. bioresource technology, 2010, 10: 2782-2792. [8] wenyuan zhu, j.y. zhu, kefu chen. effects of removal of hemicelluloses and lignin during sporl pretreatment on enzymatic saccharification from aspen chips[c]. proceedings of the 16th iswfpc,2011,june. pp900-903. [9] 朱文远,田英姿,杨飞,杨仁党,李军,陈克复. 棉秆制浆研究进展[j]. 纸和造纸,2008,(04):25-28. [10] 朱文远,赵传山,田英姿,杨仁党,杨飞,尤鹏,陈克复. 壳聚糖改性两性聚丙烯酰胺增强剂的制备及应用[j].中华纸业,2008(04):35-39. [11] 朱文远,赵传山,田英姿,杨仁党,杨飞,陈克复. dmc/am/ma型两性丙烯酰胺增强剂的共聚合成及在封闭循环条件下的应用(英文)[j]. 陕西科技大学学报,2007,(04): 6-11. [12] 朱文远,赵传山,于建仁. 新型两性聚丙烯酰胺增强剂的合成及在封闭循环条件下的应用[j]. 造纸化学品,2006,(03):35-39. [13] 蔡慧,朱文远*,王淑梅,王立永,董元锋. 基于等标污染负荷法的化学法制浆全过程水污染源解析[j]. 中国造纸,2021,40(7):93-98. [14] 王敏,尹崇鑫,程金兰,朱文远. 层次分析-模糊综合评价法在制浆造纸水污染控制技术评估中的应用[j]. 林业工程学报,2021,6(04):107-113. [15] 陈婷婷,王晨,程金兰,朱文远,陈务平. 相同集聚因子时纤维悬浮液的流动特征及机理[j]. 林业工程学报,2020,5(04):121-126. [16] dong yf, ji hr, dong ch, zhu wy, long z, pang zq. preparation of high-grade dissolving pulp from radiata pine. industrial crops and products, 2020, 143: 111880. [17] fu xt, ji hr, wang bs, zhu wy, pang zq, dong ch. preparation of thermally stable and surface-functionalized cellulose nanocrystals by a fully recyclable organic acid and ionic liquid mediated technique under mild conditions. cellulose, 2020, 27: 1289-1299. [18] luo, xl ; gong, zg ; shi, jh; chen, lh ; zhu, wy; zhou, yh ; huang, ll; liu, j. integrating benzenesulfonic acid pretreatment and bio-based lignin-shielding agent for robust enzymatic conversion of cellulose in bamboo. polymers, 2020, 12(1): 191. [19] dong, ch; meng, yh; wang, bs; zhu, wy; pang, zq. effect of antisolvents on the structure of regenerated cellulose: development of an efficient regeneration process. holzforschung, 2020, 74(9): 881-890. [20] dong, yf; wang, bs; ji, hr ; zhu, wy ; long, z; dong, ch. effect of papermaking conditions on the ink absorption and overprint accuracy of paper. bioresources, 2020, 15(1): 1397-1406. [21] wang, bs; shen, py; zhu, wy; pang, zq; dong, ch. effect of ground wood particle size on biomass fractionation using p-toluenesulfonic acid treatment. cellulose, 2020, 27(7):4043-4052 [22] ji, hr; wang, l; pang, zq; zhu, wy; yang, gh; dong, ch. using a recyclable acid hydrotrope and subsequent short-term ultrasonic pretreatment to facilitate high-value lignin extraction and high-titer ethanol production. cellulose, 2020, .27(13):7561-7573 [23] zhang, x; li, j; gong, j; kuang, ys; he, sm; xu, j; mo, lh; man, y; zhu, wy; song, jl; song, t. cleaner approach for medium consistency eucalyptus slab pulp production using ozone bleaching under turbulent mixing[j]. journal of cleaner production, 2020, 276: 124201. [24] liang jiao, huiyang bian, ying gao, xuliang lin, wenyuan zhu, and hongqi dai. highly dispersible cellulose nanofibrils produced via mechanical pretreatment and tempo-mediated oxidation[j]. fibers and polymers, 2018, 19: 2237-2244. [25] bian, hy;jiao, l;wang, rb;wang, x;zhu, wy;dai, hq. lignin nanoparticles as nano-spacers for tuning the viscoelasticity of cellulose nanofibril reinforced polyvinyl alcohol-borax hydrogel[j]. european polymer journal, 2018, 107:267-274. [26] wu, wb; li, j;zhu, wy;jing, y ;dai, hq . thermo-responsive cellulose paper via arget atrp[j]. fibers and polymers, 2018, 17: 495-501. [27] fang yang, er-suo jin, yangyang zhu, shufang wu, wenyuan zhu, yongcan jin, and junlong song*. a mini-review on the applications of cellulose-binding domains in lignocellulosic material utilizations. bioresources, 2015, 10(3): 6081-6094. [28] huiyang bian, liang jiao, ruibin wang, xiu wang, wenyuan zhu, hongqi dai*. lignin nanoparticles as nano-spacers for tuning the viscoelasticity of cellulose nanofibril reinforced polyvinyl alcohol-borax hydrogel. european polymer journal, 2018, 107: 267-274. [29] tian, s., zhu, w., gleisner, r., pan, x.j., zhu, j.y.. comparisons of sporl and dilute acid pretreatments for sugar and ethanol productions from aspen[j]. biotechnology progress, 2011, 27(2): 419-427. (sci) [30] zhu, j.y., zhu, w., obryan, p., dien, b.s., tian, s., gleisner, r., pan, x.j.. ethanol production from sporl-pretreated lodgepole pine: preliminary evaluation of mass balance and process energy efficiency[j]. applied microbiology and biotechnology, 2010, 86(5): 1355-1365。 [31] 杨仁党,黄俊,朱文远,陈克复. 聚半乳甘露糖在纸浆中的吸附和抗离子干扰的研究[j]. 中国造纸学报,2010,25,(03):1-4.
2、专利 [1] 陆平,朱文远,张辉,周积学,叶平. 提高聚酯成形网亲水性的方法及聚酯成形网[p]. 发明专利,专利号:zl 2012 1 0067489.5。2014.10.22 [2] 陆平,朱文远,张辉,周积学,叶平. 一种新型废纸回收利用装置[p]. 实用新型,专利号:zl 2012 2 0096329.9。 2012.3.15. [3] 朱文远,陈务平. 一种废纸回收用的纸浆过滤装置[p]. 实用新型,专利号:zl 2020 2 0695644.8。2020.4.29. [4] 朱文远,陈务平. 一种新型废纸回收利用装置[p]. 实用新型,专利号:zl 2020 2 0697220.5。2020.4.29.
3、报告和专著 [1] 朱文远,蔡慧,王淑梅,王晨,陈务平,童国林,刘琪,徐峻. 造纸行业水污染源解析报告。2020.11 [2] 朱文远,陈金兰,王淑梅,王晨,陈务平,童国林,蔡慧,王敏,徐峻. 造纸行业水污染全过程控制技术评估报告。2020.11 [3] 朱文远,陈务平,童国林,王淑梅,王晨,刘琪,徐峻. 造纸行业水污染全过程控制工程技术设计指南(建议稿)。 2020.11 [4] 朱文远,徐峻,童国林,陈克复,等. 造纸行业水污染全过程控制技术发展蓝皮书。2020.12. [5] 陈克复主编. 制浆造纸机械与设备(第四版),2020. 主要参编人员(参编字数超10万字)
4、获奖
[1] 朱文远(5/10). 2017年度江苏省复合材料行业科技进步一等奖,江苏省复合材料学会,2018.1 [2] 朱文远(5/10). 2017梁希林业科学技术奖二等奖,国家林业局/中国林学会,2017.4 [3] 朱文远. 2014年江苏省优秀本专科生毕业设计(论文)奖三等奖,江苏省教育厅,2015.6. 指导教师. [4] 朱文远. 第十一届山东省大学生科技节山东省大学生纸与造纸科技创新创意优秀指导教师,山东省科学技术协会/山东省教育厅等,2019.10 |
