摘要
传统自然环境水质检测方式对水质成分种类检测并不全面,仅能满足水温、水体PH值、电导率、水体氧量溶解值、水体污染浑浊度等常规数值的检测,而对于SOD值和总磷值的检测不仅消耗时间长,精确度也并不理想。对此提出了一种新型检测方式,在详细分析光谱检测原理的基础上,通过朗格比尔定律所包含的水体检测准则,提高光谱仪检测准确度;采用超声辅助Frond试剂法利用自由基氧化作用,针对样品溶液的SOD值检测和盐酸盐检测,进行样品溶液消解,提高检测精确度;重新设计光谱检测系统结构,添加样品溶液反应测控系统、检测水源流路系统、信号控制处理系统保证样品检测精度,实现检测试剂的高精度检测。
Natural environment for traditional measurement methods for water quality testing is not comprehensive, species can only meet the water temperature, PH value, conductivity, turbidity values of dissolved oxygen, water, water pollution of conventional numerical tests, and for SOD value and phosphate testing not only consumes time is long, accuracy is not ideal. In this paper, a new type of detection method is proposed. Based on the detailed analysis of the principle of spectroscopic detection, the detection accuracy of the spectrometer is improved through the water detection criterion contained in langerbier's law. Using the ultrasonic assisted Frond reagent method, the free radical oxidation was used to detect the SOD value of the sample solution and the hydrochloride test, and the solution of sample solution was carried out to improve the detection accuracy. Redesign the spectrum test system structure, add the sample solution of measurement and control system, test the water flow system, signal control sample processing system to ensure precision, realize high precision detection reagent.
作者
刘钊
Liu Zhao(Hydraulic Structure Engineering School,Xi'an University of Technology,Xi'an 710000,China)
出处
《环境科学与管理》
CAS
2018年第10期147-152,共6页
Environmental Science and Management
关键词
自然水体
水电资源
检测限
自由基氧化
SOD检测
natural water bodies
hydroelectric resources
detection limit
free radical oxidation
SOD testing