高含盐有机废液滚筒喷雾预浓缩优化
Optimization for drum spray preconcentration of high-salt organic wastewater
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摘要: 滚筒喷雾预浓缩装置具有传热效率高,抗结垢能力强等特点,特别适合于对高含盐有机废液进行浓缩预处理。利用自行搭建的滚筒喷雾预浓缩实验装置研究影响高含盐有机废液预浓缩效果的工况参数,在保证预浓缩盐与刮刀正常分离的条件下达到最小能耗比的目标。首先,基于单因素及正交实验结果,确定导热油温、滚筒转速、NaCl质量分数、进料COD为影响因子。随后以含水率及能耗比为响应值,通过Box-Behnken 响应面分析法(BBD)设计实验,建立二次多项式回归方程模型。最后综合分析回归方程模型各项参数,各因素及相互作用对含水率及能耗比的影响,调整后预期最佳条件:导热油温为180 ℃、滚筒转速为1.00 r·min-1、NaCl质量分数9%、进料COD 80 000 mg·L-1,验证结果显示所建预测模型均具有良好的拟合度、可信度及精密度。Abstract: The drum spray preconcentration device is characterized as high heat transfer efficiency and strong anti scaling ability, which is especially suitable for concentration pretreatment of high-salt organic wastewater. In this study, a self-made experimental device of drum spray preconcentration was used to investigate the working conditions which could influence the high-salt organic wastewater preconcentration effect. The goal of minimum energy consumption ratio could be achieved under the condition of ensuring the normal separation of preconcentration salt and scraper. First of all, based on the results of single factor and orthogonal experiments, conduction oil temperature, roller rotating speed, NaCl thickness and material COD were determined as impact factors. Then, the water content and energy consumption ratio were taken as the response values, a model of quadratic polynomial regression equation was established successfully through the results of the designed experiments using Box-Behnken design (BBD) matrix in response surface methodology. Finally, the effects of the parameters, factors and their interactions of regression equation model on water content and energy consumption ratio were comprehensively analyzed. The optimum conditions were determined as follows: 180 ℃ of conduction oil temperature, 1.00 r·min-1 of roller rotating speed, 9% NaCl thickness and 80 000 mg·L-1 of material COD. The results showed that prediction model have a good degree of fitting, reliability and precision.
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Key words:
- high-salt organic wastewater /
- drum spray /
- preconcentration /
- response surface method
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[1] 左武,周尤超,葛仕福,等.高含盐有机废液热处理研究进展[J].环境工程,2018,36(4):47-51 [2] 乌云,杨鲁伟,张振涛,等.高盐有机废水蒸发浓缩分离特性实验研究[J].环境工程,2015,33(8):8-12 [3] 瞿瑞,张占梅,付婷.MVR法处理含盐废水中试研究[J]. 环境工程学报,2016,10(7):3671-3676 10.12030/j.cjee.201501182 [4] 梁林.处理高浓度含盐废水的机械蒸汽再压缩系统设计及性能研究[D]. 南京:南京航空航天大学,2013 [5] 郭浩,彭昌盛,李倩,等.喷雾结晶法处理高浓盐水实验研究[J].水处理技术,2016,42(1):101-104 [6] 吴优福,刘捷,海玉琰,等.超超临界1 000 MW机组脱硫废水零排放技术[J]. 热力发电,2017,46(5):108-113 [7] 童玉武.一种双沸腾搅拌污泥滚筒干燥技术的研究[D].苏州:苏州大学,2014 [8] 于珊.喷雾干燥技术在制盐行业的应用[J]. 盐科学与化工,2017,46(12):49-51 [9] 郭浩,彭昌盛,李倩,等.喷雾结晶法处理高浓盐水实验研究[J]. 水处理技术,2016,42(1):101-104 [10] 左武,朱化军,崔灵丰,等.一种高浓度有机含盐废液分段式气化脱毒系统及方法:ZL107324431A[P]. 2017-11-07 [11] 朱化军,左武,涂勇,等.一种利用圆盘干化机处理高含盐有机废液的系统:ZL205856026U[P]. 2017-01-04 [12] 涂勇,左武,朱化军,等. 高含盐有机废液气化脱毒系统及方法:ZL106044903A[P]. 2016-10-26 [13] 卜贻孙.理论COD与重铬酸钾法实测COD的关系[J]. 煤矿环境保护,1998(4):55-57 [14] 王瑾,李树君,林亚玲,等.南瓜浆滚筒干燥动力学模型[J]. 农业机械学报,2012,43(4):126-131 [15] 王瑾.滚筒干燥机研制及南瓜粉干燥过程数学模拟[D]. 北京:中国农业机械化科学研究院,2011 [16] 段欣,薛文通,张泽俊,等.甘薯全粉滚筒干燥生产工艺[J]. 农业机械学报,2010,41(3):117-122 [17] 中华人民共和国国家质量监督检验检疫总局, 中国国家标准化管理委员会.制盐工业通用试验方法 水分的测定:GB/T 13025.3-2012[S].北京: 中国标准出版社,2012 [18] 车耀坤,屈一新,王水,等.无抄板间热式滚筒干燥机传热研究[J]. 北京化工大学学报(自然科学版),2010,37(5):1-4 [19] 刘欣欣,晋日亚,贺增弟,等.响应面法优化水力空化强化二氧化氯降解罗丹明B研究[J]. 环境工程,2017,35(10):24-28 [20] ARASB D M,MILAD P,GHOLAM R A.Optimizing spray drying conditions of sour cherry juice based on physicochemical properties, using response surface methodology (RSM) [J].Journal of Food Science and Technology, 2017,54(1):174–184 10.1007/s13197-016-2449-8 [21] LIU Y J,CHEN F X,GUO H H.Optimization of bayberry juice spray drying process using response surface methodology[J].Food Science and Biotechnology,2017,26(5):1235–1244 [22] 王朵,程方,王赛璐,等.响应面中心组合设计法优化制备载磁活性炭[J]. 环境工程学报,2016,10(8):4079-4086 10.12030/j.cjee.201503083 -
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