中华纸业
中華紙業
중화지업
CHINA PULP & PAPER INDUSTRY
2014年
20期
6-11
,共6页
取水定额%水节点技术%白水%膜分离%深度处理
取水定額%水節點技術%白水%膜分離%深度處理
취수정액%수절점기술%백수%막분리%심도처리
quota of water intake%water node technology%white water%membrane separation%advanced treatment
2013年开始实施的国家《造纸产品取水定额》GB/T 18916.5-2012,明确规定13种浆纸产品平均取水量必须降低15.8%。本研究组将某BCTMP化机浆厂工艺过程分为3个独立用水单元,将TS作为主要污染指标,估算出3个操作单元的极限数据,采用水节点技术对3个用水系统进行了优化设计,从而使清水用量由初始的41.1m3/A D t减少到31.1m3/A D t,节约新鲜水用量达26.1%。同时介绍了一种新型的Petax精细过滤系统,可以过滤去除白水中20μm以上的细小纤维,处理后白水用在网压部的高压喷淋,解决了喷嘴堵塞问题。膜技术和制浆造纸综合废水回用工程应用实例表明,深度处理技术可同时减少废水排放量和COD排放量,达到良好的经济效益和环境效益。
2013年開始實施的國傢《造紙產品取水定額》GB/T 18916.5-2012,明確規定13種漿紙產品平均取水量必鬚降低15.8%。本研究組將某BCTMP化機漿廠工藝過程分為3箇獨立用水單元,將TS作為主要汙染指標,估算齣3箇操作單元的極限數據,採用水節點技術對3箇用水繫統進行瞭優化設計,從而使清水用量由初始的41.1m3/A D t減少到31.1m3/A D t,節約新鮮水用量達26.1%。同時介紹瞭一種新型的Petax精細過濾繫統,可以過濾去除白水中20μm以上的細小纖維,處理後白水用在網壓部的高壓噴淋,解決瞭噴嘴堵塞問題。膜技術和製漿造紙綜閤廢水迴用工程應用實例錶明,深度處理技術可同時減少廢水排放量和COD排放量,達到良好的經濟效益和環境效益。
2013년개시실시적국가《조지산품취수정액》GB/T 18916.5-2012,명학규정13충장지산품평균취수량필수강저15.8%。본연구조장모BCTMP화궤장엄공예과정분위3개독립용수단원,장TS작위주요오염지표,고산출3개조작단원적겁한수거,채용수절점기술대3개용수계통진행료우화설계,종이사청수용량유초시적41.1m3/A D t감소도31.1m3/A D t,절약신선수용량체26.1%。동시개소료일충신형적Petax정세과려계통,가이과려거제백수중20μm이상적세소섬유,처리후백수용재망압부적고압분림,해결료분취도새문제。막기술화제장조지종합폐수회용공정응용실례표명,심도처리기술가동시감소폐수배방량화COD배방량,체도량호적경제효익화배경효익。
The state standards for water quota of the paper industry (GB/T 18916.5-2012), clearly regulating that the water intake amount by per ton products should be reduced by 15.8% on average for 13 kinds of paper, had been taking into effects this year. In this study the whole pulping system would be divided into three separate water unit to evaluate the limitation value for each one in term of the main eflfuent character of total solids (TS). Each water unit was then conducted to optimize the water usage amount by water node technology. By using this technology, the total fresh water consumption per air dried ton paper products was reduced from the initial level of 41.1 m3 to that of 31.1 m3, decreased by 26.15%. In this paper was also introduced a new type of Petax ifne ifltration system to treat the white water, which could remove the ifne particles in diameter of more than 20 microns in white water. The treated white water was able to be reused as the high pressure spray water in wire part and press part of paper machines, meanwhile preventing from the problem of nozzle blockage. The application example of integrating the membrane technology with papermaking wastewater recycling project demonstrated that application of advanced treating technologies can reduce the discharge amount of waste water and COD level, with good economic beneifts and environmental beneifts achieved.
