摘要
由发泡塑料餐饮具等造成的“白色污染”问题一直是长期以来困扰我国乃至世界的重要环境问题之一。随着一次性可降解餐饮具的出现,这一问题从技术上已经得到了解决。但其中应用最广的纸浆模塑餐饮具,存在成本过高,以及制浆过程纤维被氯、硫等化学药品污染、成浆质量针对性不强等问题,限制了这一技术的推广。
本文以GTI防油防水助剂为依托,研究了竹材ECMP生产模塑餐盒专用浆的可行性。研究过程采用仪器分析、化学分析、制浆造纸专用分析、餐饮具专用分析和数理统计分析等研究方法,对GTI助剂的防油防水机理、模塑餐盒专用浆的使用功能、不同植物纤维原料和制浆方法对成盒质量及经济性的影响、竹材ECMP浸渍和打浆工艺条件的优化、抄盒工艺条件的优化等问题进行了探讨;同时对制浆过程中废水的产生位置及污染负荷进行了测定,并提出处理方案;最后针对研究结果提出工业化设计思路,并完成模拟工业化试验。
实验结果表明:建立在GTI助剂基础上,模塑餐盒专用浆宜采用高得率浆中的ECMP制浆方法,以廉价速生的竹为原料;浸渍药品选用NaOH,浸渍用碱量8%,常压浸渍;脱色选用H_2O_2,脱色用药量3%,利用双辊磨多功能的特点磨浆后高浓脱色;打浆采用以纤维分丝帚化为主要目的的粘状打浆,高浓低比压;抄盒过程纤维加入量为成盒重量的65%,GTI助剂加入量为纤维重量的70%,实验室条件下打浆浓度1.0%,打浆后纤维湿重4.5g;制浆废水经生化处理可达标排放;模拟工业化试验制备的成盒,其主要性能检测满足国家标准要求。本研究制得的模塑餐盒专用浆具有成浆质量针对性强、生产流程简单、全程常压操作、无氯无硫、污染负荷低并可处理、经济性好等特点。以竹材为原料,采用ECMP制浆方法生产模塑餐盒专用浆,不论从技术角度、经济角度还是环境角度都是可行的。
本研究的完成,将从一定意义上解决一次性可降解餐饮具环保性与经济性矛盾的问题,为可降解餐饮具取代发泡塑料餐饮具,从根本上解决“白色污染”问题探索出一条新的出路。
White pollution caused by plastic foaming dishware has caused great concern of the world.The appearance of one-off dishware indicates a possible solution of this problem, however, thepaper plastic-model dishware have some problems just as environmental pollution made ofchemical and low quality, its wide application has limited greatly.
In the present work, based on the oil-anti and water-anti performance, the feasibility ofbamboo pulp for plastic-model dishware making was investigated. Based on the result ofcharacterization, chemical analysis, economical analysis and orthogonal static, mechanism ofGTI additive for water and oil anti was drawn, the character of pulp for plastic-model dishwareEffect of materials, pulp methods, impregnation of bamboo ECMP, pulp-making condition,dishware making condition on the quality and cost of dishware were analyzed. Loading ofwastewater was measured and relative treatment scheme was proposed. Pilot scale experimentwas conducted.
Based on the above mentioned works, using GTI as additive, bamboo as material andECMP as pulp method; use NaOH as the impregnant, the charge is 8%, normobaric; use H_2O_2as deeolouriser, the Charge is 3%, with twin screw roller refiner refine, decolour with highconcentration; when beating, the pulp should be high concentration and low beat pressure; thepulp content is 65% of the whole dishware, and the GTI content is 70% of the pulp dosage,the beating pulp density is 1.0%, and the finally wet weight is 4.5g; the Wastewater candischarge with biological treatment; the charcter of dishware made in simulation ofindustrialized experiment fulfills the National Standard. In addition, the obtained pulpexhibited simple, low cost and low pollution advantages, it is feasible for plastic-modeldishware making of both environment and economical consideration.
The result of this work may provide a promising solution for the white pollution causedby the traditional one-off dishwares.
引文
[1] 闵恩泽,傅军.绿色化工技术的进展.化工进展,1999(3):5~14
[2] 杨友麟.化工过程模拟[J].化工进展,1996,15(3):1~7
[3] 石磊,李绍军,姚平经.清洁生产的技术演变及其整体框架.化工进展,1999(3):20~22
[4] 陈港,刘志辉.无污染快餐盒的现状和展望.广东造纸,1997(1):30~32
[5] 徐善衍.探求科技与金融的最佳组合.高科技与产业化,1999(2):11、17
[6] 谷容发.积极推进科技与经济的对接[J].企业技术进步,1999(6):32~33.
[7] 赵科,孙培勤,刘人壮.一次性可降解餐具转化为生产力的影响因素.郑州工业大学学报(社会科学版),2001,19(1):81~84
[8] 赵科,孙培勤,孙绍晖,刘人壮.可降解餐具工业化进展.化工进展,2001(11):46~48
[9] 廖正品,唐赛珍.发展中的中国塑料工业.中国包装工业,1994,3(1):8~10
[10] 唐赛珍,杨惠娣.发展中的中国塑料工业.大自然探索,1994,13(2):5~8
[11] 唐志祥,王强等编.包装材料与实用包装技术.北京:化学工出版社,1996
[12] 王忠厚主编.制浆造纸化验与物检.北京:中国轻工出版社,1995
[13] 隆言泉主编.造纸原理与工程.北京:中国轻工出版社,1994
[14] 王忠厚主编.制浆造纸设爷与操作.北京:中国轻工版社,1995
[15] 王文江.纸浆模塑快餐盒生产线简介.辽宁造纸,2000(1):19~20
[16] 国家经贸委要求餐饮企业立即停止使用一次性发泡塑料餐具.http://www.00615.net/wshqh/php/news/news_11.php?id=221. 2001-06-07
[17] 全国禁限用一次性发泡塑料餐具部份省市及行业名单.生活用纸,2001(6):11
[18] GB18006.1-1999,一次性可降解餐饮具通用技术条件
[19] CB18006.2-1999,一次性可降解餐饮具降解性能试验方法
[20] 董金狮.各种新型环保餐具生产、使用情况及优缺点比较和评价.中国包装工业,2000(12):37~42
[21] 可降解塑料餐具市场谁领风骚,生活用纸,2001(5):52~53
[22] 吴姣平,詹怀宇,胡健等.纸浆模塑餐盒的生产技术及其发展前景.广东造纸,2000(1):24~29
[23] 陆金发,王惠书等.纸浆模塑成型工艺的设计基础.中国包装报,2001-8-1
[24] 戴洪民主编.新型绿色包装材料.北京:化学工业出版社,2005
[25] Gentile V M, Tschichirner U, Wilder H D.The Scott Paper Alkaline Per-oxide Me chanical Pulping Process[C]. International Mechannical Pulping Conference Proceedings
[26] Bohn W L, Sferrazza M J. Alkaline Peroside Mechanical Pulping, a Revolution in High Yield Pulping[C]. International Mechanical Pulping Conference Proceeding s. Helsinki(Finland), 1989
[27] Xu E. A Xew Concept in Alkaline Peroside Refiner Mechanical Pulping [C]. I nternational Mechanical Pulping Conference. Houston(USA), 1999
[28] Zhou Y. Research and Product Development in High-yield Pulp (HYP)[C] Proceedi ngs. of the 2nd ISETPP Conference. Guangzhou (China), 2002, 210
[29] Rydhom S A. Pulping Processes. Florida(US): Robert E Kfieger Publishing Compa ny, 1985
[30] Zhou Y. Overview of HYP in paper and board[C]. Paptac: 90th annual meeing (B). Montreal(Canada), 2004, 143
[31] 周亚军.用枫树高得率化机浆生产高档涂布纸板[J].中国造纸,2003,22(7):11
[32] Zhou Y, Zhou X. Achieving desired end-use performance by using HYP in wood-f ree coated paper [C]. International Mechanical Pulping Conference. Quebec (Canad a), 2003, 15
[33] Hu k, et a. Substitution of HW kraft with aspen HYP in LWC wood -free papers [C]. Paptac: 90th annual meeing (B). Montreal(Canada), 2004, 95
[34] Zou X, Begin P, S Deschatelets, et al. The Impact of Lignin on Paper Permanence A Comprehensive Study of the Ageing Behavior of Hand-sheets and Commercial Paper Samples, [J]. Restaurator, 1998, 19:135
[35] 袁中山,张金昌,吴迪镛等.室内环境污染研究进展.环境污染治理技术与设备,2001,2(1):9-16
[36] 刘江龙,丁培道,左铁镛.论环境(协调)材料.环境科学进展,1996,4(1):69~74
[37] 国家环境保护总局.中国逐步淘汰消耗臭氧层消耗物质国家方案(修订稿).1999
[38] Yamamoto. Advanced materials'93, v, Cemeteries Elsevier:. 5, 1994
[39] 洪钢.生命周期分析法(LCA)—环境评估的有效工具.环境科学动态,1998(3):15~18
[40] 席德立,彭小燕.LCA环境影响分析新探.环境科学,1997,18(6):76~80
[41] 杨建新.面向产品的环境管理工具产品生命周期评价.环境科学,1997,18(6):76~80
[42] 董金狮.一次性可降解餐饮具发展动向.中国包装工业,1999,19(6):63~64
[43] 陈樵鉴.Bivis法制浆机理的探讨.中国造纸学会第八届学术年会论文集(上册),1997.111
[44] 刘长恩,岳金权.辊式多功能磨浆机结构及其磨浆机理[I].中华纸业,2000,21(10):25~28
[45] 刘长恩,岳金权.双螺旋辊式新型磨浆机及其应用[I].中国造纸,2000,11(6): 21~25
[46] 王晋华,朱孝生,张锡英等.双螺旋辊式磨浆机的电气设计[J].佳木斯大学学报(自然科学版),1999,17(4):378
[47] 文巨峰,同向双螺杆转子的啮合特性[J].大连轻工业学院学报,1999,18(1):70~72
[48] 李晚成.江西省举办首届高校环境文化节,江西日报,2005—12—05
[49] China Papermaking NewsMay 1995, No.5
[50] 梁治齐等,氟表面活性剂,北京:中国轻工业出版社,1998
[51] 曾毓华,氟碳表面活性剂,北京:中国轻工业出版社,2001
[52] 贺贤璋等.食品包装纸用防油剂—HOR.造纸化学品,1997(1):4~7
[53] 何双敏.纸浆模塑餐具的内施胶技术.中国包装工业,2000(8):33~40
[54] 周慧敏.氟碳化合物对改变纸张憎液性能的作用.上海造纸,1992,23(4):2~5
[55] Holloway JH, why Fluorine in coatings Surface international, 1995, (2): 50
[56] 黄菊洪,徐春.有机氟施胶剂与新颖抗油纸.造纸化学品,1994,6(1):16~20
[57] 黄菊洪,徐春.有机氟施胶剂与新颖抗油纸(续)1994,6(2):6~10
[58] 魏兰,刘忠.表面活性物质在纸餐盒上的应用.天津造纸,2002,(4):27~30
[59] 久保元伸,含氟防水防油剂Ⅰ—关于防水防油性能的机理.印染,1995,12,37~42
[60] 韩昌泰.光.生物降解塑料餐盒与纸浆模塑餐盒的比较.上海包装,2002(1):19
[61] 李稳宏,王军,韦玮,常江.麦秸杆开发利用加工新技术.化工时刊,2000(10):9~11
[62] 沈镇平.南京环绿公司推出玉米餐盒.包装工业,2003(112):13
[63] 陈立新等.用胶粘剂和骨粉制作快餐盒.化工时刊,2000(10):12~13
[64] 周高潮.纸纤维模塑餐具大规模生产技术及其系列产品开发研究概述.包装世界,2000(3):71
[65] 刘秉钺,李牧编著.功能纸及纸制品的制造.北京:中国轻工业出版社,1998
[66] 沈一丁.造纸化学品的制各和作用机理.北京:中国轻工业出版社,1999
[67] 吴学栋.食品包装纸用含氟表面活性剂.纸和造纸,1997(3):22~23
[68] 曹昶铉等.LODYNE(劳达)抗油脂抗水氟化合物施胶剂.上海造纸,1998,29(2):54~59
[69] 吴中杰,谢孔良.纸张用含氟防油剂的合成和应用研究.造纸化学品,2005(2):4~7
[70] 治齐等.氟表面活性剂.北京:中国轻工业出版社,1998
[71] 戴红旗,毕松林.纸浆模塑餐盒防油防水性能研究.林产工业,1998,25(4):25~27
[72] 廖明真.谈纸与纸制品的憎液性能.中华纸业,1995(2):36
[73] 邬义明.植物纤维化学.北京:中国轻工业出版社,1997
[74] 刘秉钺,李牧.功能纸及纸制品的制造.北京:中国轻工业出版社,1998
[75] 李元禄.高得率浆生产与应用.北京:中国轻工业出版社,1996