BOD微生物传感器和BOD智能生物检测仪的研究

报道了一种具有广泛底物的高效菌种制成的 BOD微生物传感器及智能型快速 BOD测定仪。采用该仪器 ,可快速测定水中的 BOD,测定周期仅为 3 0分钟     

微生物传感器快速测定水中BOD的研究与探讨

对大量不同行业和水样的实际样品进行BOD微生物传感器快速测定法与五日生化需氧量法(BOD5)的比对分析,在此基础上,指出了BOD快速测定法的注意事项以及应用范围.     

微生物燃料电池型传感器在BOD检测中的应用进展

介绍了微生物燃料电池型BOD传感器的原理与构建方式，分析了影响响应时间、电池转化率、稳定性等性能的因素，指出微生物燃料电池型BOD传感器响应时间短，适用范围广，稳定性好，操作简单，能实现BOD实时在线检测，提出构建低成本、高性能的微生物燃料电池型BOD传感器与BOD在线检测装置是该领域研究的重要方向。     

微生物传感器测定水中BOD的研究进展

详细介绍了BOD微生物传感器的构造、基本工作原理以及微生物膜的制备和固定化技术;分析了近年来BOD微生物传感器的发展情况及其使用过程中的存在问题。根据BOD传感器的研究现状提出今后的研究方向和工作重点。     

生化需氧量(BOD 5 )测定中的接种液优化问题

测定样品中BOD5时,常常受水样的pH值、菌种及其活性、温度、溶解氧浓度等因素影响.因此,有时测定BOD5需要对样品稀释接种,《水和废水监测分析方法》(简称《4版》)提供了制作接种液的方法.     

生化需氧量快速测定法的样品预处理

随着生物传感器技术的发展,现在我们可以采用固定化微生物传感器的方法来测定水质的BOD.该方法较之经典的五日稀释接种法省时省力.文章讨论了实验操作中的一些问题,得到了有实用价值的经验.     

以酵母菌作为敏感材料的BOD生物传感器研究

以一株耐高渗透压的酵母菌种作为敏感材料 ,研制的的生物传感器可采用稳态呼吸速率法进行 BOD快速测定。该方法与广为采用的五天生化需氧量标准稀释测定法有良好的相关性 ,线性范围为 0～ 2 0 0 mg/ L,可在 1 5 min内完成一个样品 BOD的测定。测定结果具有良好的重现性和准确度 ,标准曲线的线性相关系数达到 0 .9987     

BOD生物传感器快速测定方法应用与探讨

介绍了微生物传感器快速测定生化需氧量(BOD)的方法,通过对标准溶液、工业废水、地表水、污水处理厂废水的检测,分析其精密度和准确度,通过与BOD_5的比对,对方法的存在问题及适用性进行了探讨和研究,为该方法的发展及其在环境监测中的实际应用提供了技术依据。     

生化需氧量(BOD)测定技术进展

综合评述了BOD5指标发展历程和测定方法,重点讨论了标准稀释法接种技术和微生物传感器方法研究的主要进展。     

地表水中BOD5的快速预测

应用日常监测地表水得到的大量BOD5、IMn和DO数值,根据最小二乘法原理,可寻求地表水中BOD,与IMn、BOD5与DO的一次线性函数关系,并建立直线回归方程。由此通过短时间内测定地表水中UMn。或在现场使用溶解氧测定仪测定的DO,以及其已建立的直线回归方程,可快速预测地表水中的BOD5。     

Application of Defined Co-Immobilized Microbial Consortium as a Ready-to-Use Seed Inoculum in Bod Analysis

A number of microorganisms were isolated from sewage. Biochemical Oxygen Demand (BOD-5 day) analysis was carried out by individual pure cultures. The cultures giving higher or equal BOD values as compared to reference GGA solution were selected for the formulation of a defined mixed microbial consortium. This microbial consortium was co-immobilized on calcium-alginate beads. Four synthetic and six industrial samples were tested for BOD by using immobilized beads as well as sewage as source of seeding materials. BOD values obtained with beads for all the synthetic as well as industrial samples were fairly comparable with those obtained with sewage. Reusability of prepared microbial beads was also checked with different synthetic and industrial samples and was compared with reference GGA solution. The same microbial beads can be reused three times for different BOD-5 day estimations. It is recommended that immobilized microbial beads can be used as a ready-to-use seeding material for BOD analysis.     

Practical field application of a novel BOD monitoring system

A biochemical oxygen demand (BOD) monitoring system, based on electrochemically-active bacteria in combination with a microbial fuel cell, has been developed for the purpose of on-site, on-line and real-time monitoring of practical wastewater. A microbial fuel cell that had been enriched with electrochemically-active bacteria was used as the basis of the measurement system. When synthetic wastewater was fed to the system, the current generation pattern and its Coulombic yield were found to be dependent on the BOD5 of the synthetic wastewater. A linear correlation between the Coulombic yields and the BOD5 of the synthetic wastewater were established. Real wastewater obtained from a sewage treatment plant also produced a highly linear correlation between the Coulombic yield and BOD5 in the system. To examine on-site, on-line and real-time monitoring capability, the BOD monitoring system was installed at a sewage treatment plant. Over 60 days, the measurement system was successfully operated with high accuracy and good stability with the measuring period for a sample being 45 min. This application showed that the application of the measurement system was a rapid and practical way for the determination of BOD5 in water industries.     

Measurement of biochemical oxygen demand of the leachates

Biochemical oxygen demand (BOD) of the leachates originally from the different types of landfill sites was studied based on the data measured using the two manometric methods. The measurements of BOD using the dilution method were carried out to assess the typical physicochemical and biological characteristics of the leachates together with some other parameters. The linear regression analysis was used to predict rate constants for biochemical reactions and ultimate BOD values of the different leachates. The rate of a biochemical reaction implicated in microbial biodegradation of pollutants depends on the leachate characteristics, mass of contaminant in the leachate, and nature of the leachate. Character of leachate samples for BOD analysis of using the different methods may differ significantly during the experimental period, resulting in different BOD values. This work intends to verify effect of the different dilutions for the manometric method tests on the BOD concentrations of the leachate samples to contribute to the assessment of reaction rate and microbial consumption of oxygen.     

一种新的BOD测定方法——溶氧仪测定法

对BOD5的测定方法进行了改进,利用膜电极法测定溶解氧,进而测定水样的BOD5,并与经典的容量法(碘量法)进行比较,大量的实验结果表明,仪器法与经典方法同样精确可靠,完全可以取代经典的容量法。     

新型反应器式BOD快速测定仪的性能研究

BOD是反映水体有机污染的主要参数,广泛应用于水体监测、污水处理厂的运行以及水与废水处理的教学与研究工作。传统的BOD测量需要5天,耗时费力。因此,开发BOD快速测量方法及仪器十分重要。文章针对一种新型反应器式BOD快速测定仪在仪器化过程中需要解决的一些问题进行了探讨。包括固定化微生物颗粒制备、反应温度的优化、有无搅拌条件、仪器性能等。实验结果表明,最适宜的测量温度为30℃,可以利用微量曝气代替磁力搅拌,以方便仪器的制作。在对150mg/L的GGA标准液进行的5次测定实验中,测量结果的最大偏差≤10%,精密度为4.6%。该仪器的灵敏度与准确性均能满足BOD快速测量要求。     

生化需氧量测试方法稀释比的改良

由污水常规监测及实验室内质控样的分析结果,进行比较分析,获取经验常数,确立BOD_5与CODcr存在线性关系,可由CODcr计算BOD_5的近似值,引用经验公式,直接确定取样体积,对BOD_5常规测试方法进行了改良,以达到降低工作强度,提高监测人员工作效率的目的。