LFS-2002一体化水质分析仪说明书-通用

LFCOD-2002 COD在线分析仪操作及维护规程启动系统：插好电源，打开电源开关，仪器自动运行内置的Windows操作系统，并启动污染源在线监测系统程序。

启动成功后系统主界。

为了保证系统的安全性，污染源在线监测系统提供了两种操作模式：管理模式和浏览模式。

系统自动引导进入时，即为浏览模式，用户只能进行简单的数据查询和日志查询操作，而不能对系统的设置信息进行更改，也不能维护系统；而在管理模式下，这些选项用户均可以直接操作，比如对系统的运行参数进行配置、对系统进行标定等；一般在设置好的设备无需更改设置。

手动操作是需输入密码，进行管理员操作，进入系统维护。

系统维护分为：MCU维护，IO卡测试，仪器测试维护人员在进行仪器调试时，可以通过点击此按钮启动仪器测试。

此时，系统将跳过水样预处理过程，仅启动仪器进行测试。

一般日常维护基本进入MCU维护，IO卡测试，仪器测试几个菜单当中测试仪器各个单元工作是否正常然后进行手动测试。

日常维护：1.机箱外壳的清洗：用一块干布清洗仪器机箱外表面。

2.系统管路的清洗：可在“运行设置”/“集成设置”/“清洗设置”中进行设置。

3.仪器管路的清洗：运行“系统维护”/“MCU维护”中手动清洗程序。

清洗前，用户应将仪器样品采集管放入清洗液（1：1盐酸和无水乙醇等体积混合液）中，其他试剂采集管放入蒸馏水中。

4.仪器主要部件的维护周期见下表：维护项目维护周期更换试剂15天（监测频次：次/4小时）。

仪器管路的清1个月（根据实际情况调整）。

柱塞泵6个月：更换柱塞泵密封圈（2个）、注射器外壳；36个月：更换柱塞泵。

更换采样管（聚四氟乙稀管）12个月。

更换其他连管24个月。

多功能水质分析仪正确使用需注意这些分析仪如何操作随着环境污染的加重，人们越来越重视环境的保护，为了保护水环境，必需加强对污水排放的监测，所以水质分析仪是特别紧要的，目前随着技术的进步，开发出来的多功能随着环境污染的加重，人们越来越重视环境的保护，为了保护水环境，必需加强对污水排放的监测，所以水质分析仪是特别紧要的，目前随着技术的进步，开发出来的多功能水质分析仪解决了很多的检测问题，带来了很大的便利。

但假如您不会使用多功能水质分析仪，可能很简单造成测量的误差，所以这里我简单地为您介绍一下多功能水质分析仪正确使用方法以及操作需要注意的事项，希望能够帮忙到您。

一、启动仪器接通电源或安装电池，按红色按钮启动仪器。

二、仪器的测量1、温度测量将温度电极接头插入仪器上对应的插座上（标有T的插座），把温度电极放入待测溶液中，按测量键进行测量，待数值稳定后或显现OK，按确认键结束，按确认键返回主菜单。

2、盐度测量将温度电极插入仪器上所对应的插座上，盐度电极的插头插入标有S的插孔上，按左移或右移键，将光标移至S下方，把温度和盐度电极都放入待测溶液中，按测量键进行测量，仪器先会对温度进行测量，数值稳定后按确认键测量盐度，或待温度数值显现OK后仪器会直接对盐度进行测量。

待盐度数值稳定后或显现OK，按确认键结束，按确认键返回主菜单。

3、溶解氧测量将温度电极插入仪器上所对应的插座上，溶解氧电极的插头插入标有DO的插孔上，按左移或右移键，将光标移至DO下方，把温度和溶解氧电极都放入待测溶液中，按测量键进行测量，轻轻摇摆溶解氧电极，仪器先会对温度进行测量，数值稳定后按确认键测量溶解氧，或待温度数值显现OK后仪器会直接对溶解氧进行测量，待溶解氧数值稳定后或显现OK，按确认键结束，返回主菜单。

4、PH测量将温度电极插入仪器上所对应的插座上，PH电极的插头插入标有PX的插孔上，按左移或右移键，将光标移至PH下方，把温度和PH电极都放入待测溶液中，按测量键进行测量，仪器先会对温度进行测量，数值稳定后按确认键测量PH值，或待温度数值显现OK后仪器会直接对PH进行测量，待PH数值稳定后或显现OK，按确认键结束，返回主菜单。

目录1．操作说明 (3)2．G::SYSTEM简介 (4)3 常用术语 (5)4．测量 (6)4.1光谱测量原理 (6)4.2 功能检查/参考测量 (6)4.3 探头的安装 (7)5.安装 (8)5.1产品清单 (8)5.2 组装 (8)5.3连接压缩空气清洗装置 (8)5.4探头的安装 (9)6 操作 (10)6.1 con::lyte的启动 (10)6.2 探头的搜索和初始化 (11)7 测量显示/主要菜单 (12)7.1 各按键的功能 (12)7.2读数和信息显示 (12)7.3 主菜单/菜单项 (13)8 测量/CON::L YTE操作 (15)8.1自动 (15)8.2 手动操作 (15)8.3 运行日志和数据 (16)8.4 settings（测量参数设置） (16)8.4.1 Settings \ s::canpoint (16)8.4.2 Settings \ Measurement (16)8.4.3 Settings \ Cleaning (17)8.4.4 In-/Output(电源和中继界面) (17)8.4.5 In-/Outputs \ mA Output (18)8.4.6 In-/Outputs \ Relays (Fault Relay) (18)8.4.7 In-/Outputs \ Reset settings (19)8.5 Calibration (19)8.5.1 Calibration \ Global calibration (19)8.5.2 Calibration \ Local cal.<Par1> (19)8.5.3 Calibration \ function control (20)8.6 Information (20)8.7 Extra (20)9 附件 (21)9.1 多功能玻片 (21)9.2 安装棒 (21)9.3旁路器具 (23)10 运行日志消息 (25)11 软件的下载说明（CON::L YTE） (28)12 联系地址 (28)1．操作说明通过购买s::can G::system 在线水质分析仪，您会获得一种易于操作，应用围广的高科技测量产品。

水质快速测定仪使用指南一、溶液配制COD试剂D-100：将整瓶D-100粉末状晶体试剂倒入烧杯中，加75mL蒸馏水，加入5mL分析纯硫酸后不断搅拌直至全部溶解后备用；D-500：将整瓶D-500粉末状晶体试剂倒入烧杯中，加348mL蒸馏水，加入22mL分析纯硫酸后不断搅拌直至全部溶解后备用；E-100：将整瓶E-100粉末状晶体试剂全部溶于500mL分析纯硫酸中，不断搅拌或隔夜放置，直至全部溶解；E-500：将整瓶E-500粉末状晶体试剂全部溶:2500mL分析纯硫酸中，不断搅拌或隔夜放置，直至全部溶解。

氨氮试剂N2试剂：将一瓶固体N2试剂放入烧杯中，加30mL左右无氨水（蒸馏水），充分搅拌使其溶解，并稀释至100mL，装入磨口试剂瓶中放置过夜后使用（如有沉淀可将沉淀去除后取上清液使用，）；N3试剂：将一瓶固体N3试剂溶于100mL无氨水中。

总磷试剂P1试剂：将整瓶P1粉末状晶体试剂全部溶于100mL蒸馏水中，不断搅拌至全部溶解；P2试剂：将整瓶P2试剂全部溶于88mL蒸馏水中，在不断搅拌下加入12mL分析纯硫酸，放置备用；过硫酸钾：将整瓶过硫酸钾试剂全部溶于100mL蒸馏水中不断搅拌至充分溶解后备用。

二、水样测定1、COD高量程①开机→按“测量”→按“加热开关”（两次），仪器根据系统设置进行升温→消解器升温至165℃后蜂鸣报警→按“加热开关”键停止，可以开始消解。

②取水样（空白取蒸馏水）2.5mL(COD值大于1000mg/L时稀释适当倍数)→加D试剂0.7mL→E试剂4.8mL→混匀后放置于消解器中，按“消解”键，恒温消解10min→报警后再按任意定时键取消。

③取出反应管，（按“冷却”键）在空气中冷却2min→加2.5mL蒸馏水，摇匀，（按“冷却”键）水冷却2min,比色测定（3mm比色皿），记录数据。

2、氨氮①开机→按“设置”键→1.测定项目选择→5.氨氮→确定②空白取无氨水10mL，其他取水样10mL→加N3试剂1mL→加N2试剂1mL→摇匀，静置10分钟→比色读值（1mm比色皿）。

导言该chemtrol 250系列控制器是基于微处理器的数字控制器设计，监测和控制清洁和pH值在seimming泳池，矿泉疗养浴场，冷却, 冷却水塔及工业应用该控制器可与三种类型的传感器测量水的酸度（pH值）和清洁水平，无论是百万分之一（零件万元或毫克/升）或ORP的在毫伏计窗体顶端这本手册涵盖的新版本（ 4 .. 0和）的五种模式chemtrol 255ppm / pH值控制器chemtrol 250ORP / pH值控制器chemtrol 240PH / pH值控制器chemtrol 235PPM / pH值控制器chemtrol 230ORP / pH值控制器游离氯所示的图1 ，游离氯在水中是在平衡下的两种形式分子hoci ，强烈的消毒剂和氧化剂电离保险业监理处。

薄弱消毒剂和氧化剂在pH值7.5 ，有两种形式，是在平等的比例50 ％，每个较低的pH值，hoci占主导地位较高的pH值，保监处是主导.ORP的控制（模型230/250）该ORP的传感器的显示电压（中压）所产生的氧化剂，在水它响应了强烈的氧化剂，如hoci及其溴相当于古特白刺，它也回应其他强有力的氧化剂是用在水处理中的应用, 如臭氧（03 ）或钾monopersulfate(kso3)因为hoci是首要的氧化剂.这信号酒店该ORP的传感器随pH值增加重要性.这是不具体，以氯或溴和回应其他氧化剂。

氯或溴浓度须生成一个理想的ORP的价值不同，与pH值和整体水质，特别是总溶解固体（全港发展策略）的浓度，有机负荷和氰尿酸浓度稳定剂该ORP的设定的预设值控制器是700毫伏，这是建议，以杀死细菌和细菌和保持良好水质ppm的控制该ppm的传感器是针对游离氯.控制器displqys的浓度，总游离氯（hoci +保险业监理处- ）在百万分之一（每100万毫克/公升）。

它没有作出回应，溴和/或氧化剂该ppm的设定的预设值控制器是1.0 ppm的是建议，以杀死细菌和细菌和保持水质良好该ppm的设定的预设值控制器是1.0 ppm的是建议，以杀死细菌和细菌和保持水质良好,该ppm的设定的预设值控制器是1.0 ppm的是建议，以杀死细菌和细菌和保持水质良好.水化学出发之前的自动化控制，测试，水化学，以确保pH值，三聚氰酸和溶解性总固体是内部范围的建议，由国家水疗池和研究所P H值应予以调整，手动与7.4至7.6，这是低于7.0或以上8.0 ，控制器将显示报警的条件，并防止饲（可编程选项） 。

COD/氨氮/总磷说明书青岛聚创环保设备有限公司目录 (1)免责 (3)第一节引言 (4)第二节技术参数 (5)第三节.试剂的配制 (7)第四节按键说明 (10)第五节仪器的基本操作 (11)1、COD的测定 (11)2、总磷的测量 (13)3、氨氮的测定 (16)4、历史记录 (17)5、时钟 (19)6、曲线 (20)第六节仪器校准及曲线的标定 (22)第七节消解器的结构及组成 (26)第八节消解器操作说明 (26)第九节常见故障及排除方法 (29)1.本手册所提到的产品规格和资讯仅供参考，如有内容更新，恕不另行通知。

2.该产品用于专业性较强的特殊行业。

对其使用和操作的人员，必须要具备相关专业知识和操作能力，以避免操作失误所造成的使用事故，由此造成的事故本公司概不负责。

质保1.本公司对所有产品在出厂前，都进行了严格的产品检验，并对所有制造和质量上的问题，自出厂之日起免费保修一年。

2.如在仪器质保期内，因不规范的操作、不符合要求的使用环境、人为过失、意外事件、不当的存储或运输原因造成的问题，我公司仍负责维修，但需根据仪器故障程度收取适当的成本费用。

3.对于超过质保期的仪器，本公司将采取有偿保修和服务。

4.当发生以下情况之一时，该产品将不再受到我公司的保修及服务：（1）一切将仪器分解、再组装、拆机或改造的行为；（2）非我公司直属机构及授权的人员，擅自维修过的仪器；（3）产品防拆机易碎膜破裂的仪器；（4）未使用厂家原装耗材而造成仪器测定故障的仪器；（5）通过非正常渠道购买到的我公司产品。

第一节引言尊敬的用户：您好！感谢您选用我公司研制生产的便携式多参数快速测定仪。

为确保正确使用仪器，请在使用前仔细阅读本手册。

工作原理：氨氮：以游离态的氨或铵离子等形式存在的铵氮与纳氏试剂反应生成黄棕色络合物，该络合物的色度与铵氮的含量成正比，可用分光光度法的测定。

总磷：在中性条件下用过硫酸钾使试样消解，将所含磷全部氧化为正磷酸盐。

水质监测仪器使用说明书使用说明书第一部分：产品概述本使用说明书旨在为用户提供水质监测仪器的正确使用方法和注意事项，以确保用户能够正确使用仪器并获得准确的测试结果。

请在使用仪器前仔细阅读本使用说明书，并按照说明进行操作。

第二部分：产品特点1. 高精度测试：采用先进的传感技术，能够准确测量多种水质参数，包括水温、pH值、溶解氧、浊度等。

2. 简便操作：仪器配有清晰的液晶显示屏和易于操作的按钮，用户只需按照屏幕提示进行操作即可完成测试。

3. 数据存储功能：仪器内置大容量存储器，可存储大量测试数据，并支持数据导出和打印功能，方便用户进行数据分析和报告生成。

4. 长电池续航：内置锂电池，能够提供长时间稳定的电力供应，保证测试过程的连续性和稳定性。

5. 轻便易携：仪器体积小巧轻便，配备便携式包装，方便用户在不同的场合进行测试。

第三部分：使用须知1. 使用环境：仪器适用于室内和户外环境，但请避免暴雨天气和高温环境下的使用，以免对仪器造成损坏。

2. 校准和维护：建议定期进行校准和维护，以确保测试结果的准确性和仪器的正常运行。

校准和维护操作应由经过专业培训的技术人员进行。

3. 清洁保养：在使用完毕后，请将仪器进行适当的清洁，以保持仪器的良好状态。

注意不要将仪器放置在湿润环境或长时间曝晒于阳光下。

4. 操作安全：在进行测试过程中，请正确佩戴个人防护设备，如手套、护目镜等，以确保个人安全。

5. 使用限制：本仪器仅适用于水质监测领域，请勿将其用于其他用途。

第四部分：操作步骤1. 打开仪器：长按电源按钮，待液晶屏幕亮起后，松开按钮，仪器即可启动。

2. 校准仪器：根据仪器的校准指引，使用标准溶液对仪器进行校准，以确保测试结果的准确性。

3. 准备测试样品：取得需要测试的水样品，将其放置在标准测试容器中，并确保容器的清洁和无杂质。

4. 进行测试：将测试容器插入仪器的测量槽中，按下测量按钮，仪器将开始自动进行测试，并在液晶屏幕上显示测试结果。

concentration of a particularsubstance. Examples are fluoride,and some tests for ozone.To determine concentration, the color developed in the sample is either compared visually with manufacturer supplied standards (color comparator)or inserted into a photometer,colorimeter, or spectrophotometer to give results directly on a meter scale,or digitally via a discrete readout.Results are expressed as parts per million (ppm), milligrams per liter (mg/L), grains per gallon (gpg), etc.Visual Comparator Limitations:– Individual differences in one’s ability to discern color intensity– Background lighting. Mostmanufacturers formulate their color standards using natural daylight.Incandescent, fluorescent or direct sunlight are unacceptable and may produce errors– Color blindness is a definiteproblem with visual color comparison methods– With certain colors, it is extremely difficult to discern fine variations.Example: yellows and some hues of blueEven with the limitations described above, visual color comparisonmethods are inexpensive, generally easy to use, conveniently packaged and designed for simplicity. Some visual test results are reportable for permit purposes. Check with your local inspector.Colorimetric methods using a photometer, colorimeter, orspectrophotometer offer a unique advantage. Many meters are battery powered and conveniently packaged for portability. To briefly describe their operation: a light beam is pointed at a the sample. Depending upon the amount of color present, light will pass through the sample and be detected by a photodiode. With the aid of electronics, the results are displayed on a meter, either directly in concentration or as a percentage of light transmitted. Advantages of such instrumentation are:– It eliminates the need for visual interpretation by a human operator.– It eliminates concern for background lighting.– It ultimately offers greater accuracy.Of course, using a meter to “read”IntroductionA variety of test procedures andmethods is available for use by water and wastewater operators. They run the gamut from colorimetric,titrimetric, electrometric (meter &probe), turbimetric and nephlometric through demonstrative methods.Often, more than one of thesemethods can be utilized to measure a single unknown parameter. For example, chlorine residuals can be measured colorimetrically,titrimetrically, or electrometrically.What is the best method for your application? First, let’s define these methods, give examples of each,learn the limitations of each method,and then decide what method (and,therefore, test kit and procedure) is best suited for your needs.The key issue is to decide upon the test procedure that best meets your requirements concerning:a) accuracy,b) cost (initial & cost per test),c) skill level,d) repeatability,e) portability,f) decision-making value of information obtained,g) safety and reagent disposal and,h) reportability of resultsRemember, getting the most complete, reliable, and accurate information from your testingoperations will provide you with the decision-making tools to you need monitor your water or wastewater systems, make operational changes and meet permit requirements and state mandates.Colorimetric MethodThis is defined as the measurement of a parameter when theconcentration is directly proportional to color development and intensity after the addition of known volume of reagent chemicals. In cases like chlorine residual, the colorimetric reaction is almost immediate, and results can be determined right away.Other tests like those for nitrates and phosphates may require 5- to 10-minute waiting periods before fullcolor development is obtained, due to the chemistry involved.Some unique colorimetric tests react in reverse. That is, the greater the color development, the lower thecolor development can initially be more expensive.Colorimetric test methods offeron-the-spot results and can test for a variety of common substances. Tests for chlorine, iron, manganese, copper,zinc, aluminum fluoride, ozone,nitrates, phosphates, sulfides, and many more materials are available.Weigh the advantages, disadvantages and overall requirements before you make your decision.Titrimetric MethodIn this procedure a sample is taken,and reagent known as an indicator reagent is added to produce a color. A “titrant” or a reacting reagent is added drop by drop until a colorchange occurs. The point at which the color changes is called the endpoint.Titrimetric methods offer a number of titrant dispensing apparatuses:– Drop count: a calibrated dropper dispenses drops of equal size. When the endpoint is reached, the number of drops that was required is counted and multiplied by a conversion factor.Example: one drop indicates 5 ppm.– Laboratory burets: automatic burets which are not generally portable. This dispensing apparatus has a calibrated scale on its barrel. Titrant is dispensed until the endpoint is reached. The volume used is then read from the calibrated scale, in many cases, the number of milliliters used equals the test result in ppm.– Direct Reading Microburet: a syringe-sized calibrated microburet dispenses the titrant until the endpoint is reached. Results are usually read directly off the calibrated scale in ppm. The apparatus used to perform this procedure is totally portable, as with the drop count method.– Digital Titrators: titrant from a cartridge is inserted into amicro-dispensing device. The amount dispensed is read on a digital venier,usually in ppm.Titration methods are generally quite inexpensive, and are the preferred method in many procedures. Tests for acidity, alkalinity, carbon dioxide,hardness, dissolved oxygen, and chlorine are among the most common. Here, too, convenientpackaging and simplicity are the key to portability and accuracy. This method is preferred in determining corrosion to water supplies, and offers the operator an easy, inexpensiveG-19G SOIL& WATER ANALYSIS INSTRUMENTSWater Testing MethodsTitrimetricTitrimetric tests can be used to determine the concentration of a substance in a sample solution. After the sample is treated with an indicator, a standard titrant is added until a color change indicates a completed reaction. OMEGA offers four separate types of titration methods, allowing a choice of precision and convenience.ColorimetricThere are two basic types of colorimetric tests:Automatic BuretThe self-zeroingautomatic buret iscalibrated from 0 to10 mL in 0.1 mLincrements. It isavailable with asqueeze valve(pinchcock), glassstopcock, or Teflon®stopcock.Dropper BottleThe dropper bottle testuses bottle tips whichdeliver a consistent,standard drop sizeto add titrant to thesample. As with thedrop count test, thenumber of drops usedto complete thereaction is multiplied bya given equivalencefactor to determine theconcentration.Direct ReadingTitratorThe direct readingtitrator is a 1.0 mLmicroburet calibrated toallow direct reading ofthe test result. Eachtitrator has a specificrange, but may berefilled to test higherconcentrations.Dropper PipetThe drop count testuses a pipet to providefast, precisemeasurements in thefield. The number ofdrops used before thecolor change ismultiplied by a fixedfactor to provide thetest result.1Tests which determinethe concentration of asubstance are based onBeer’s Law. Simplystated, this law saysthat, the higher theconcentration of asubstance, the darkerthe color developed inthe test; as a result morelight will be absorbed bythe sample.2pH tests use anindicator which changescolor with changes inthe concentration ofhydrogen ions, that is,according to the acidityof the solution.There are two accessories which can be used with an Octet Comparator. TheBi-Color Reader neutralizes sample color and/or turbidity to givemore accurate readings. The Axial Reader uses a mirror toextend the view path and intensify the faint colors of lowconcentrations for easy distinguishing. Both accessoriesattach directly to the comparator and come with completeinstructions for use.Electronic MethodsElectronic colorimeters measure the amount of light whichtravels through the reacted sample, and convert themeasurement to an analog or digital reading as ppm or %T.Visual MethodsOMEGA offers several visualcolorimetric comparators:The Octet Comparator andOcta-Slide contain eight colorstandards with built-in filters whicheliminate optical distortion. Thecolor standards in the OctetComparator are arranged so thatthe sample can be compared tofour standards at once. In theOcta-Slide, the standards areplaced in a bar so that they canbe compared to the sample individually.G-21CANADA www.omega.ca Laval(Quebec) 1-800-TC-OMEGA UNITED KINGDOM www. 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