燃烧分析仪燃烧说明

燃烧分析仪的操作方法燃烧分析仪是一种用于定量分析有机物中碳、氢、硫、氧等元素含量的仪器。

它使用高温下的燃烧技术，通过测量产生的气体中的元素含量来分析样品的组成。

本文将介绍燃烧分析仪的操作方法。

一、准备工作在使用燃烧分析仪之前，需要进行一些准备工作。

首先，需要检查仪器是否处于正常工作状态，包括检查燃烧装置、检测器和气体流路等部件是否完好。

其次，需要准备好所需的样品和标准物质，以及相应的溶剂和试剂。

最后，确保仪器周围的环境安全，避免发生意外事故。

二、仪器的基本操作1. 开机与校准将燃烧分析仪接通电源，按照仪器说明书的指引进行开机操作。

待仪器启动完成后，进行校准操作，包括零点校准和量程校准。

根据仪器的要求和说明书的指导，校准仪器使其处于最佳工作状态。

2. 样品的制备与进样根据分析的需要，将所需的样品和标准溶液准备好。

对于固体样品，通常需要先进行研磨、溶解等预处理步骤。

然后按照仪器的要求，将制备好的样品进样到燃烧分析仪中。

注意进样的量要适当，避免超出仪器承受范围或造成误差。

3. 燃烧与分析样品进样后，仪器将会进行燃烧处理，并测量产生的气体中的元素含量。

具体的燃烧和分析过程由仪器自动完成，用户只需等待结果的生成。

4. 结果的处理与记录分析完成后，仪器将生成相应的分析结果。

用户可以根据需要对结果进行进一步的处理，如计算百分含量、生成报告等。

同时，在实验过程中需要注意记录每一步的操作和观察结果，为后续的分析和数据处理提供依据。

三、注意事项在使用燃烧分析仪时，需要注意以下事项：1. 安全操作：使用燃烧分析仪需要高温燃烧和产生气体，因此要注意安全操作，避免烫伤、中毒等意外情况的发生。

操作过程中要佩戴防护手套、防护眼镜等必要的个人防护装备。

2. 仪器维护：定期对仪器进行维护和保养，保持仪器的稳定和精确度。

清洁仪器的外壳和流路，更换消耗品和易损件，以确保仪器的长期稳定运行。

3. 样品处理：在进行样品制备和进样过程中，要注意样品的保存和处理。

快速安装指南00825-0106-4891, Rev AC2022 年 10 月Rosemount™ 6888C 直插式燃烧氧量分析仪使用危险区域快速安装指南2022 年 10 月安全说明警告请遵循安装准则。

不遵守这些安装准则可能导致死亡或严重受伤。

如果未按照制造商规定的方式使用本设备，可能会破坏设备具备的危险防护功能。

请遵循产品标示和提供的所有警告、注意和说明。

请按照本文档中的规定安装设备。

务必让有资质的人员进行产品的安装、操作和维护。

请将产品的正确安装、操作和维护告知员工并对他们进行培训。

请遵守本地和国家规程。

如果您对本说明的任何内容存有疑问，请联系您的艾默生代表予以澄清。

警告爆炸切勿在易爆环境中开启。

警告触电切勿在通电时开启。

警告将所有设备连接到适当的电源和压力源。

警告物理接触未经授权的人员可能会对最终用户的设备造成明显受损和/或误组态。

这可能是有意或无意的，需要采取相应的防护措施。

物理安全措施是任何安全计划的重要部分，是保护您的系统的基础。

限制未经授权人员进行物理接触，以保护最终用户的资产。

这对于设施中使用的所有系统均是如此。

小心对于标准外壳锆头和直接替换锆头，仅可使用额定 > 105 °C 的电缆和已认证电缆密封套。

对于自动标定护罩，仅可使用额定 > 85 °C 的电缆和已认证电缆密封套。

/Rosemount请只使用工厂记录在案的组件进行维修。

篡改或未经授权的替换件及程序可能影响产品性能并致使过程运行不安全。

现场手操器必须升级到 System Software 2.0，带图形许可证，才可用于 Rosemount6888C 分析仪。

AMS 软件必须升级到 AMS 8.0 或以上。

请致电 +1-800-833-8314 联系艾默生全球服务中心 (GSC)，将现场通讯器软件升级到具有图像许可证的 System Software 2.0。

符号接地端子保护导线端子电击风险参见《参考手册》。

燃烧分析仪手册1模拟输入,CA-Plugin设置1.1模拟输入配置模拟输入部分的设置屏幕指示所有DAQP放大器。

缸压高压力传感器用于燃烧室内压力测试通常是基于电荷类型传感器，请讲其连接到燃烧分析仪DAQP-Charge-B放大器BNC接头上。

还需使用点火线圈传感器时,测量点火时间,这个传感器是基于电流信号,需要外部使用分流电阻接头（该接头，将BNC接头正接入2针，BNC接头负接入7针，且需在2针和7针之间接入一个电阻，如下图），且电压较大。

DAQP-V模块是适当的为这种类型的传感器。

典型的被安装DAQP通道设置界面,如下图：连接通道在使用栏被使用激活，并且在命名栏中进行重命名输入。

活跃的实时信号可以在PHYSICAL VALUES栏中观察到实时值显示，此刻可以立即进入通道设置界面,可以对输入范围选择进行合理选择。

在通道设置中对各放大器设置，用户可以定义和扩展。

通道设置分为4步,如下图由第一步到第四步说明进行通道设置。

第一步，放大器量程设置；第二步，通道名称和单位设置；第三步，传感器灵敏度设置（两点法、公式法）；第四步，显示输入值（物理量）和对应实际值（工程量）。

●输入范围可以从预定义列表选择，或手工输入。

●抗混叠过滤器应该设置为100 khz和贝塞尔模型。

高压力传感器暴露在热冲击环境下,这可能会导致信号漂移,但AC耦合方式将减少这种漂移,避免信号超过他们的输入范围。

高通滤波器的频率与输入范围相关联。

在从100pC到2000pC时为0.07Hz，超过2000pC约0.005 Hz高通滤波器参数。

●连接传感器后后可以将耦合设置到DC模式,并点击Reset。

Reset将消除连接及长时间运行放大器内把引起和产生的内部静电，将信号只调回到0。

●点火线圈传感器设置，仍遵循上述的四步方法，量程只需满足要求即可，可以无需设置灵敏度参数，因为，此传感器主要关注的是，点火时间，而非电流大小。

1.2CA-Plugin设置模拟输入设置后,我们必须选择燃烧分析插件设置,并添加计算模板。

奇石乐燃烧分析仪——KiBox简介一、仪器设备名称: KiBox Combustion AnalysisKiBox燃烧分析系统二、厂商:瑞士奇石乐仪器股份公司Kistler Instrumente AG国别:瑞士Switzerland三、型号: 2893AK1四、技术特点及优势✓KiBox燃烧分析仪可以用于发动机台架标准稳态燃烧分析———燃烧热力学计算、示功图、爆震分析、燃烧噪声分析、压力升高率分析、瞬时放热率和累计放热率分析，并得到峰值压力、压力升高率、燃烧重心、燃烧持续期、平均有效压力、爆震强度、爆震峰值、爆震频率、燃烧循环波动、燃烧温度、发动机循环功及功率、点火正时、喷油始点终点、喷射持续期等发动机燃烧特征参数。

✓KiBox燃烧分析仪可用于发动机高瞬态工况燃烧分析，更可以用于车载燃烧分析，获得真实驾驶条件的燃烧分析和优化结果, 如海拔、沙漠、低温等条件。

✓无需光电编码器，可以将各种车载转角传感器和触发码盘信号转换为精确可靠的曲轴转角信号，并且在高瞬态的发动机工况下利用车载转角信号(e.g. 60-2、60-2-2、60-2-2-2、60-1、36-2、24-1等)获得所需要的 0.1 CA 转角分辨率✓对于磁电传感器系统基于转速进行角度误差的修正，允许对触发信号进行修正(触发信号标定的需要)，实现零相位延迟。

✓智能信号调理模块，自动识别传感器标定数据并导入。

✓提供车辆行驶条件下发动机上止点的确定。

✓同时获得角域和时域数据，并灵活切换。

✓强大的参数配置界面，独立的数据显示。

具有校验输入信号的诊断功能，自动校验参数设置的有效性。

✓基于每循环燃烧分析的操控性试验，比如扭矩响应。

✓实时的每循环燃烧效率和功率信息，例如，MFB50表示了循环间变化对燃油效率的影响；IMEP 涉及到各缸工作的稳定性及缸间平衡程度。

✓缸内压力的上升率表征了NVH质量的变化。

✓发动机起动质量试验：排放、失火、怠速平稳性。

可测试记录发动机启动前30s和发动机停机后30s的数据。

奇石乐发动机燃烧分析仪说明书奇石乐发动机燃烧分析仪说明书1：简介1.1 产品概述1.2 产品特点1.3 销售配套件2：产品安装与基本操作2.1 安装步骤2.2 连接电源2.3 启动与关闭仪器2.4 菜单操作说明2.5 仪器标定与校准3：仪器功能与参数介绍3.1 燃烧分析原理3.2 主要功能3.3 仪器参数说明4：使用流程4.1 打开仪器并预热4.2 连接测试设备与被测发动机4.3 启动发动机并进行测试4.4 数据分析与导出5：故障排查与维护5.1 常见故障与排查方法5.2 仪器维护与保养6：安全注意事项6.1 仪器使用前的准备工作6.2 操作时的安全事项6.3 仪器维护的注意事项7：附件7.1 附件清单7.2 附件使用说明法律名词及注释：1：知识产权法：保护创造性作品的法律体系以及进行专利、商标、著作权等知识产权保护的法律规定。

2：商品质量法：规定了商品在生产、加工、销售等环节中应符合的质量标准及消费者权益保护机制的法律法规。

3：安全生产法：保障工作单位和从业人员的安全生产权益，预防事故、降低危害和损失的法律法规。

4：环境保护法：保护和改善环境质量，维护生态平衡，保障公民的健康权益的法律法规。

附件：1：快速安装指南2：用户手册3：保修卡附件使用说明：1：快速安装指南：详细介绍了产品的快速安装步骤以及常见问题的解决办法。

2：用户手册：包含了产品的详细技术参数、操作流程、故障排查方法和维护保养内容。

3：保修卡：记录了产品购买日期、序列号以及相关售后服务的联系方式。

COMBUSTION ANALYSERS Domestic & industrial heatingFrench Manufacturer• 2 interchangeable sensors • Remote printer (option)• Thermocouple K input for DHW network• Supplied with calibration certificate, Ligaz-2 software, protective shell and storage bag• O 2 and CO sensors • Remote printer (option)• Thermocouple K input for DHW network • Supplied with adjustment certificate and storage bag• 2 interchangeable sensors• Sensor protection by pump shutdown • Integrated printer• Supplied with calibration certificate, Ligaz-2 software, protective shell and storage bagCOMPACTKigaz 80ECONOMICALKigaz 50ESSENTIALKigaz 110Combustion analysersGas analysis / Temperature / PressureKigazThe new Kigaz analysers are intended for efficiency monitoring and optimisation and for limiting emissions from all types of boiler.This new range of combustion analysersprovides practical solutions to improve working life in the field.O 2• Up to 3 interchangeable sensors • CO sensor protection by solenoid valve • Auto-zero in flue • Integrated printer• Supplied with calibration certificate, Ligaz-2 software, protective shell and storage bag • Changeable probe length• Up to 4 interchangeable sensors • CO dilution up to 5%• Auto-zero in flue • Integrated printer • Integrated condensate trap • 3 pressure sensors• Supplied with calibration certificate, Ligaz-2 software, protective shell and storage case FLEXIBLEKigaz 210EXPERTKigaz 310Advantages.....................04Software . . . . . . . . . . . . . . . . . . . . . . .05Kigaz 310 . (06)Kigaz 210 ......................08Kigaz 110 ......................09Kigaz 80 .. (10)Kigaz 50 .......................11Accessories (11)SummaryP . 05P . 04Mobile application compatible with the entire Kigaz range*.Easy user replacement, no need to return to the factory*.Kigaz mobileInterchangeable sensors*Excluding Kigaz 50The advantagesof the Kigaz rangeWith a colour or black-and-white screen, our new combustiongas analysers have an ergonomic design enablingmeasurements to be made as easily as possible by means of:• A 10 button keypad• An intuitive graphical interfaceAvailable as an option, the low consumption Bluetooth mo-dule is compatible with all Kigaz units (excluding the class 50)and provides significant time gains by wirelessly connectinganalysers with LIGAZ-2 or LOGAZ-2 software or the mobileKigaz application.Connected appliancesEasy to useInterchangeable sensorsThe sensor electronics contain calibration data,which means that the operator can replace themwithout returning the unit to the factory.Kimo equips its Kigaz units with a lead-free O2sensor with a lifetime of 5 years.Bluetooth®connectionLong lifeO2sensorProtective rubbershellFREEappDISPONIBLE SUR6Kigaz 310The Kigaz 310 is the most comprehensive in the range and isconfigurable to your requirements, with four interchangeable sensors.The expertCODilution Long life O 2 sensor Auto-zeroin the flue Mobile applicationIntegrated printerDHW network 2 thermocouple K inputsBluetooth ®connectionUp to 4interchangeable sensorsChangeable probe lengthThe Kigaz 310 adapts to any standard-based constraint and meets all of your requirements.Access to the sensors is straightforward, and theoperator can replace them without returning the unit to the factory.For still more accurate measurements, the Kigaz 310 is equipped with 3 pressure sensors, enabling:• measurement of differential pressure with manualauto-zero• high accuracy draught measurement withauto-zero by solenoid valve• measurement of pump flow with 3 levels ofregulation, blocked filter compensation and seal testing3 pressure sensorsUp to 4 interchangeable sensorsIntegrated condensate trapSave time with the Kigaz 310’s integratedcondensate trap. The trap provides the security of overflow-free measurement and warns you when the maximum level is reached.The filter integrated into the handle of the probe is easy to replace.O 2L V / CO-H 2 / NO / NO 2 / SO 2 / CH 4interchangeableMaximum level alarmAutomatic pump controlKigaz 210Flexible and accurate, the Kigaz 210 makes all of your operations simple. It offers a range of configurable measurements according to your requirements, and its icon-based navigation system makes it very easy to use.The flexible unitUp to 3interchangeable sensorsMobile applicationIntegrated printerO 2LV / CO-H 2 NO / CH 4interchangeable CO sensor protection by solenoid valveSupplied with CALIBRATIONcertificateAuto-zero in the flue Changeable probe lengthThe Kigaz 110 combustion gas analyser is the idealappliance for rapid use on all types of boiler up to 400 kW.Easy to use and sturdy, it allows the main inspection pointsto be examined.The essential unitLong lifeO2sensorMobileapplicationIntegratedprinterO2L V / CO-H2interchangeableSensor protectionby pump shut-downDHW network1 thermocouple KinputSupplied withCALIBRATIONcertificateWith a light, compact design, the Kigaz 80 provides allthe necessary functions to accurately measure the maincombustion data for a domestic boiler up to 400 kW. The compact unitMobileapplicationRemoteprinterO2/ CO-H2interchangeableSensor protectionby pumpshutdownDHW network1 thermocouple KinputSupplied withCALIBRATIONcertificateKigaz 50functions in a compact unit, enabling you to take reliable sets of measurements from domestic boilers up to 400 kW.The economical unit2 fixed sensorsAuto-zero 30 secondsOptionRemote printerKimo at your service in more than 150 countriesD o c C o m b u s t i o n - V 1 - A n g l a i s - 12/17 R C S (24)P ér i g u e u x 349 282 095 - D o c u m e n t n o n c o n t r a c t u e l - N o u s n o u s r és e r v o n s l a p o s s i b i l i t é d e f a i r e év o l u e r l e s c a r a c t ér i s t i q u e s d e n o s p r o d u i t s s a n s p r éa v i s**************More information。

GLMDT-1型建材或制品单体燃烧试验仪使用说明书武汉格莱莫检测设备有限公司一、概述本试验机为专用测试仪器，测试建筑材料或制品（不包括铺地材料）在单体燃烧试验中对火的反映，以确定其本体物理性能的试验装置。

本试验机严格满足国标中对测试条件的要求，严格测试规程（方法），采用大量专业、精密测量元件参与系统测试参数的评定。

通过试验机测试后可以确定样品燃烧性能（等级），包含量化（定性）测试参数：样品燃烧热释放率、是否发生火焰横向传播、计算样品总产烟量（产烟性能）、样品燃烧是否有滴落物和颗粒物产生。

本试验机具备多重测试功能，以高优性价比为质检部门及企业提供最完美的检测手段·本技术资料不能作为向本公司提出任何要求的依据。

·本技术资料的解释权在本公司。

·本公司保留在满足客户要求的基础上变更设计的权利（不低于约定参数要求）。

二、依据标准GB/T20284-2006《建筑材料或制品的单体燃烧试验》三、型号说明DT-1型建材及制品单体燃烧试验装置四、系统测试项目：序号测试项目1材料（制品）燃烧热释放率2材料（制品）总产烟量3材料（制品）火焰横向传播（速率）4材料（制品）滴落物、颗粒物五、主要技术参数1、系统温度测量范围：0～400℃；测量精度：≤±0.5℃；2、系统压差测量范围：0～120Pa（MAX）；测量精度：≤±2Pa；3、排烟流量测量范围：0.25m³/s～0.8m³/s（MAX）；测量精度：≤±1.5%；4、燃气质量流量计测量范围：0g/s～3.5g/s；测量精度：≤±1%；5、氧气分析（顺磁型）范围：16%～21%，响应时间<12s，30min内噪声漂移不超过100×10-6，数据采集输出的分辨率100×10-6；6、二氧化碳（IR型）测量浓度范围：0%～10%，线性度为大于满量程的1%，数据采集输出的分辨率100×10-6；7、探测器色度标准精确度±5%，输出线性度（透过率）<3%，绝对透过率<1%；8、光密度测量：测量范围0%～99.9%；测量精度：不超过滤光片示值的±5%或±0.01；9、空气相对湿度测量：测量范围：20%～80，精度：≤±5%；10、燃料：商用丙烷气体，纯度≥95％（由用户提供）；11、电源：AC380V，5KW；12、设备占地尺寸（燃烧室及排烟管道外形尺寸）：6100mm×5500mm×4600mm(长×宽×高)；13、燃烧室外形尺寸：3200mm×3200mm×2500mm（长×宽×高）；六、系统构成及功能特点介绍：装置组成简介：DT-1建材及制品单体燃烧试验装置包括：控制系统、燃烧室、试件安装小车、燃烧器、烟道及排烟系统、分析及测量系统、除尘装置组成，如图所示。

Inspired by contractors.Typical 14 hourrun time with standard Li-Ion rechargable or use 4x AA batteriesor AC power .Organize records in folder structure for later viewing and downloads.1000 Memory2- Holds up to 4 sensors at once.- Automatic Sensor Protection.- CO-H2 compensatedof 10,000 ppm.- Smart Sensors: Includes a chip to tell the instrument the gas and calibration curve.Advanced®and easy-to-see results.Large Color text, bar graph, tile or trending format making it easier to interpret results.Enhanced Data Includes common fuels like natual gas, oil, propane and kerosene.10 Standard Fuels cal gases with simple, pre-cali-brated sensor exchange using Near Field Communication (NFC).B-SMART ®Pre-Calibrated PRODUCT SHOWN ACTUAL SIZEPCA 400 Portable Combustion & Emissions Analyzeror VITON TM tubing formost accurate NOx and SOx measurements.Sample Lineextended 15 ft sample lines.Sample Line Length OptionsInspired By Contractors.You spoke. We listened. SoBacharach delivered the PCA 400, an easy-to-use, feature-rich industrial combustion analyzer.Designed By Bacharach.The PCA 400 was designed for a wide variety of combustion applications. Whether tuning boilers or spot-checkingemissions, it provides accurate,reliable, repeatable results in a cost-effective package.Built on Reputation.Bacharach’s reputation includes over 100 years of American made products and ingenuity. This foundation combined with our extensive combustion analysis experience, brings the PCA 400 to life.Provides a quick, simple robust con-nection to the analyzer.4Data can be viewed in list (text), tile, bar graph and trending formats to easily analyze yourinformation and results. You can further customize the PCA 400 to show all the parameters in the order you prefer.Enhanced Data Viewing CapabilitiesTHE COMPLETE SOLUTION . . . FOR PORTABLEThe PCA 400 provides accurate readings for CO, O NO with our standard probe. Optional Viton and thermo-electric sample conditioner ensure accu-rate results in any application including NO measurements.Sample Conditioning for Accurate Measurements1Windows PCs, Android and iOS devices only. See website for details.5Rugged and ReliableDesigned for commercial and industrial environments, the PCA 400 is rugged and reliable for everyday use. With a rugged one-step probe connection and automatic sensor protection to extend the safe operating range the PCA 400 remains ready at your side.Bacharach’s B-SMART™ pre-calibrated sensorseliminate field calibrations. or allow the user to add a new sensor type in the field. With NFC technology, in -stalling a B-SMART™ sensor takes just a few seconds. The B-SMART™ exchange program is available so you don’t have to remember when your instrument needs calibration.B-SMART™ Pre-Calibrated Sensors Easy to Service and MaintainThe PCA 400 is designed to make maintenance easy. With quick access to sensors, batteries, probes and other consumable parts, cost of ownership and down time are significantly reduced.Multiple Sensor OptionsThe PCA 400 can be configured with up to 4 gas sensors. Pick from the CO-H 2 compensated or CO high-range sensor, then add NO, NO 2 and SO 2 asneeded. NOx is calculated from the NO reading if NOx and SOx are both required.COMBUSTION AND EMISSION ANALYSISHigh-Flow Pump with Fresh Air PurgeFor the toughest applications the PCA 400 has options to enable a higher pump flow and perform fresh air sensor purges while the probe is still in the flue.6From commercial boilers to the oil and gas industry —Bacharach’s PCA 400 is designed for you.The PCA 400 is perfect for spot-checking and tuning your engines with the high range CO sensor (with dilution capabilities for CO of up to 80,000 ppm ensuring the sensor is not overranging) and available sample conditioner. Whether it’s natural gas, stationary gensets or mobile diesel fleet vehicles, monitoring your emissions is fast, easy and accurate.ENGINES:The PCA 400 offers you everything you and your technicians need to commission,tune, maintain and certify any boiler, anywhere. With customized reporting and a simple user interface, boiler tuning and commissioning has never been so simple.COMMERCIAL AND INDUSTRIAL BOILERS:Whether gearing up for a compliance test or doing a quick spot check, the PCA 400 is always at the ready. Bluetooth ® data streaming and customizable reporting options provide all of the necessary information for reliable test reporting.MIDSTREAM OIL AND GAS:SPECIFICATIONSATTRIBUTE DESCRIPTIONDisplay 4.3 in. (10.9 cm) color touch panel LCDPower Rechargeable Li-Ion battery pack, 4x AA batteries or wall adapter (5V USB)Run Time 12 to 14 hours (typical, w/ included LI-Ion battery pack)Size (HxWxD) 10 x 3.8 x 2.5 in, (25.4 x 9.7 x 6.4 cm)Weight 1.5 lb. (0.68 kg) w/ Li-Ion battery packFuels (1) Natural gas, coal, oil 2-4 or 6, propane, wood/biofuel, kerosene, bagasse, digester gas, B5, pellets, KOKS, LEG, LPG,butane, wood chips Warm-up Time 60 secondsMemory1,000 sets of recordsCommunications USB 2.0 (micro-B), IrDA, Bluetooth ® 4.0 Approvals CE MarkWarranty2 years for instrument, 5 years for O 2 sensor Sample Flow Rate 0.6 to 0.7 L/min (standard)1.0 L/min (high flow mode)Storage Conditions 20 to 50° C (-4 to 122° F), 15 to 90% RH, non-condensing, 1 Atmosphere ± 10%,Normal Operating 0 to 45° C (23 to 113° F), 15 to 95% RH, non-condensing, 1 atmosphere ± 10%,Conditions(1)Depending upon combustion equation setting (North American or Siegert) - see manual for details7MEASUREMENTSO 2 0 to 20.9 %0.1% +/- 0.3% (on flue gas) T90 < 20 sec Standard CO-H 2 compensated 0 to 10,000 ppm 1 ppm +/- 10 ppm (0 to 200) T90 < 40 secOptional+/- 5% of reading (201 to 2,000) +/- 10% of reading (2,001 to 10,000)CO (high) 0 to 40,000 ppm 10 ppm +/- 10 ppm (0 to 100) T90 < 75 sec Optional +/- 10% of reading (101 to 40,000)NO 0 to 3,000 ppm 0.1 ppm (0 to 50) +/- 3 ppm (0 to 50) T90 < 75 sec Optional +/- 5% (51 to 2000) 1 ppm (> 50) +/- 10% of reading (> 2000)NO 2 0 to 500 ppm 0.1 ppm (0 to 50) +/- 3 ppm (0 to 50) T90 < 40 secOptional1 ppm (> 50) +/- 5% (51 to 500) SO2 0 to 5000 ppm 1 ppm +/- 10 ppm (0 to 200) T90 < 30 sec Optional+/- 5% of reading (201 to 2,000) +/- 10% of reading (2001 to 5000)Ambient -20 to 537 °C 0.1 °C +/- 1 °C (0 to 100 °C) T90 < 70 sec Standard Temperature (-4 to 999 °F) (0.1 °F)Stack -20 to 1200 °C 1 °C +/- 2 °C (0 to 124 °C) T90 < 50 secStandardTemperature (-4 to 2192 °F) (1 °F) +/- 3 °C (125 to 249 °C) +/- 4 °C (250 to 400 °C)Differential +/- 600 °C 0.1 °C N/A N/A Standard Temperature (+/- 1112 °F) (0.1 °F) Pressure +/- 179 mB 0.01 mB +/- 0.03 mB (-1 to 1 mB) N/AStandard/ Differential (+/- 72 inwc) (0.01 inwc) +/- 0.05 mB (from -2.5 to -1 and +1 to +2.5) Pressure +/- -3% of reading (from 100 to -2.5 and +2.5 to +100)Flow 0 to 1 LPM0.05 LPM +/- 0.1 LPMN/A StandardCALCULATED READINGSEfficiency (HHV) 0.1 to 100% 0.1% North American, Siegert CO 2 (dry basis) 0.1 to a fuel dependent max in % 0.1%North American, Siegert NO x 0 to 3500 ppm 0.1 ppm (0 to 50) North American, Siegert 1 ppm (> 50) CO Ref to O 2 0 to 9999 ppm 1 ppm North American, Siegert NO Ref to O 2 0 to 9999 ppm 1 ppm North American, Siegert NO 2 Ref to O 2 0 to 9999 ppm 1 ppm North American, Siegert NO x Ref to O 2 0 to 9999 ppm 1 ppm North American, Siegert SO 2 Ref to O 2 0 to 9999 ppm 1 ppm North American, Siegert Excess Air 1 to 250% 1% North American CO/CO 2 Ratio 0.0001 to fuel dependent max 0.0001 Siegert ETA (LHV) 0 to 115% 0.1% Siegert Stack Loss 0.1 to 100% 0.1% Siegert Lambda 1 to 9.550.01Siegert8Bacharach621 Hunt Valley Circle,New Kensington, PA 15068 USA|********************Ordering Information1 = CO-H 1 = 7.5 ft. STD tubing2 = 15 ft. STD tubing3 = 7.5 ft. VITON tubing4 = 15 ft. VITON tubing2 = 24 in. probe3 = 36 in. probe2410-1110PCA 400 w/ O 2, CO, 12 in. probe with 7.5 ft. STDtubing and standard case2410-1112 PCA 400 w/ O 2, CO, 12 in. probe with 7.5 ft. STD tubing, standard case and Bluetooth ® printer 2411-1110 PCA 400 w/ O 2, CO, NO, 12 in. probe with 7.5 ft. STD tubing and standard case2411-1112 PCA 400 w/ O 2, CO, NO, 12 in. probe with 7.5 ft. STD tubing, standard case and Bluetooth ® printer2412-1310 PCA 400 w/ O 2, CO, NO, NO 2, 12 in. probe with 7.5 ft. VITON TM tubing and standard case2412-1312 PCA 400 w/ O 2, CO, NO, NO 2, 12 in. probe with 7.5 ft. VITON M tubing, standard case and Bluetooth ® printer2413-1310 PCA 400 w/ O 2, CO, NO, SO 2, 12 in. probe with 7.5 ft. VITON M tubing and standard case2413-1312 PCA 400 w/ O 2, CO, NO, SO 2, 12 in. probe with 7.5 ft. VITON M tubing, standard case and Bluetooth ® printerAccessories0024-1400 Bluetooth ® printer kit 0021-7006 Tru Spot ® Smoke Kit0104-1797 Thermocouple - 10 ft. for combustion air temperature0104-1798 Thermocouple - 1 in. for ambient air temperature 0024-8242 Differential Pressure and Temperature Kit 0024-3150 High-temperature particulate filterProbe and Hose Assemblies0024-3231 Probe Handle Assembly with 12 in. probe tube 0024-3232 Probe Handle Assembly with 24 in. probe tube 0024-3233 Probe Handle Assembly with 36 in. probe tube 0024-3234 Hose Assembly, Standard tubing, 7.5 ft 0024-3235 Hose Assembly, Standard tubing, 15 ft. 0024-3236 Hose Assembly, Viton TM , 7.5 ft.0024-3237Extended Hose Assembly, Viton TM , 15 ft.Common Configurations For more information about the PCA 400 and other Bacharach products scan here.HOW TO CONTACT US:Bacharach US Customer Service: +1 724 334 5000Bacharach EU Customer Service: +353 1 284 PCA 400 is a trademark of Bacharach, Inc.。

testo 330-1，-2，-3烟气分析仪使用说明书2 一般注释一般注释在使用本产品之前，请仔细通读本文档并熟悉产品的操作。

将本手册放在手边，以便在需要时你可以参考。

本文档描述testo 330-1、-2和-3产品的专用型D 。

标识符 符号 含义注释警告！ 警示忠告：警告！如果不采取规定的防范措施，可能造成严重的身体伤害。

仔细阅读此警示忠告，并采取规定的防范措施！当心！ 警示忠告：当心！如果不采取指示的防范措施，可能发生轻度的身体伤害或设备损坏。

仔细阅读此警示忠告，并采取规定的防范措施！重要。

请特别注意。

(testo 330-1) 描述仅适用于指示的仪器：330-1、-2或-3。

-Text出现在仪器显示上的文本。

- 键按键。

“OK ”功能的功能键。

按功能键。

操作步骤的简易格式。

见第3页简易格式。

一般注释3简易格式本文档使用描述操作步骤（例如：调用一个功能）的简易格式。

例如：调用烟气功能简易格式：→测量→→烟气→(1) (2) (3) (4) (5)要求的步骤：1 打开主菜单：。

2 选择测量菜单：○▲、○▼。

3 确认选择：。

4 选择烟气菜单：○▲、○▼。

5 确认选择：。

4 目录目录也见第56页功能概述。

一般注释2目录4A. 安全忠告7B. 预定的用途8C. 产品描述9C.1 测量仪器9概览9C.1.1键盘10C.1.2C.1.3显示10装置连接11C.1.4接口12C.1.5组件12C.1.6携带带子/条形码笔座13C.1.7C.2 组合式烟气探头14D. 投入使用15E. 操作16E.1 电源单元/可充电电池16E.1.1更换电池16电池充电17E.1.2用电源单元运行17E.1.3E.2 探头/传感器18连接探头/传感器18E.2.1更换探针套管19E.2.2E.3 常规注意事项19冷凝槽19E.3.1检查/更换过滤器20E.3.2目录5基本操作步骤 20 E.4打开测量仪器 20 E.4.1E.4.2调用功能 21输入值 21 E.4.3打印数据 22 E.4.4保存数据 22 E.4.5确认错误消息 22 E.4.6用条形码笔扫描存储单元 23 E.4.7关闭测量仪器 23 E.4.8存储器/存储单元 23 E.5仪器诊断 25E.6F. 配置27F.1 仪器设置 27F.1.1 显示编辑 27F.1.2 打印机 28F.1.3 报警限制 29F.1.4 开始键编辑 29F.1.5 日期/时间 30F.1.6 语言 30F.2 传感器设置 30F.3 燃料 32G. 测量33准备测量 33 G.1调零阶段 33 G.1.1G.1.2使用组合式烟气探头 34测量 35 G.2烟气 35 G.2.1排气 36 G.2.2BlmSchV（testo 330-3） 36 G.2.3未稀释CO 38 G.2.4G.2.5烟号/HCT 39差压 39 G.2.6温差 40 G.2.7空气中O2 41 G.2.8气体流量 41 G.2.9G.2.10油流量 42G.2.11泄漏检测 42G.2.12环境CO 43G.2.13环境CO2 446 目录H. 传送数据 45H.1 协议打印机 45H.2 PC/袖珍PC 45I. 维护与保养 46I.1 清洁测量仪器 46I.2 更换测量元件 46I.3 重新校准测量元件 47I.4 更换附加的过滤器 47I.5 清洁组合　式烟气探头 48I.6 更换热电偶 48J. 问与答49K. 技术数据 50标准及检查 50 K.1K.2测量范围和精确度 50其它装置数据 51 K.3计算原理 52 K.4燃料参数 52 K.4.1计算公式 52 K.4.2L. 附件/备用件 54功能概览 56A. 安全忠告7 A. 安全忠告避免电气危险：严禁使用测量仪器及其探头在有电部件上或附近测量！保护测量仪器：严禁将仪器/测量元件与溶剂（例如：丙酮）放在一起。

第一章仪器性能和特点1.1应用范围本仪器是长沙三德实业有限公司专利技术产品，适合在短时间内分析大批量煤样的水分、灰分、挥发分，并计算其固定碳含量和发热量。

可广泛应用于煤炭、电力、冶金、石化、地勘、环保、科研、学校等行业和部门。

1.2性能指标最大功率: <4.5kw；炉温范围：室温~1000℃；控温范围：室温~920℃；控温精度：恒温温度≤200±5℃；恒温温度＞200±10℃；每盘煤样最大个数：水分/灰分：15个；挥发分：10个最大气流量：氮气10升（纯度99.9%），空气10升。

1.3仪器特点1、试验结果精密度、准确度高完全符合国标GB212—2001《煤的工业分析方法》的要求。

2、测试速度快、工作效率高SDTGA5000工业分析仪在同一时间可对15个试样进行分析，批量优势相当明显，可大大提高工作效率。

3、操作简便、安全可靠SDTGA5000工业分析仪不需要在开始做挥发分之前和做完挥发分之后打开恒温炉盖，对坩埚作加盖和取盖的操作,避免被高温烫伤及炉丝发出的红外线对操作人员眼睛的伤害。

在试验开始后的全部过程均由计算机控制，无需人工参与，且高温炉完全封闭在机内，操作人员不必担心高温所带来的危害，既安全又可靠。

4、界面友好、功能强大SDTGA5000工业分析仪系统在Windows操作平台上运行，全中文提示，界面友好，简单易学。

自动化程度高，能自动升温、恒温、降温、存储、处理试验数据；自动进行线性、系统偏差、样重校正；具有超温、热电偶断线、反接等自动报警和保护功能。

5、故障率低SDTGA5000工业分析仪结构设计合理，与国内同类产品相比故障率低，产品质量大大提高。

6、加热保温材料采用高温下不易氧化的新型合金加热材料，避免了普通电炉丝易氧化的现象，且升温速度快。

第二章仪器组成及工作原理2.1 仪器组成SDTGA5000工业分析仪由主机(内装电子分析天平)、充气设备、计算机（含显示器）及打印机组成。

锥形量热仪燃烧测试实验方法一、实验简介应用锥形量热仪测试聚合物的阻燃性能是一种先进的测试技术。

锥形量热仪对于燃烧中的聚合物材料具有多项测试功能 , 如 : 热释放速率 ( Heat ReleaseRate, HRR、质量损失速率 (M ass Loss Rates, M LR 、有效燃烧热,总生烟量 ( To ta l Smoke Production,TPS、烟释放速率 ( Rate of Smoke Release, RSR 等、参数在火灾安全工程与设计、材料阻燃性能研究、评价等方面应用广泛。

因此 , 实验测试技术和测试数据分析也非常重要 , 如对 ABS 用几种不同成分的填料 , 组合而成的几种聚合物材料燃烧测试数据的采集与分析 , 就是在充分了解、熟悉锥形量热仪的结构性能、工作原理的基础上 , 在掌握了熟练的测试技术和操作步骤的基础上 , 对测试数据的成功与否 , 有明确的认定。

这样才能对材料的阻燃性能进行分析评定 , 得出准确的结论 , 尤其是在测试前对仪器的标定 , 过滤材料的更换与过程检查 , 除湿材料过程变化与更换等 , 都是很重要的测试技术。

二、结构概述锥形量热仪是典型的机电一体化组合设备 , 其外形结构简单、紧凑 , 但是功能原理、控制原理和操作要求却极其严格 , 是多种行业知识的综合应用 , 如图 1所示。

由图可知 , 锥形量热仪的结构及原理涉及到机械、化工、通风、制冷、仪表、电气控制、流体力学、热力学、激光原理、计算机原理、计量检测等方面的知识 , 涵盖面较广 , 是非常典型的高新技术综合应用的精密测试仪器。

三、测试要点3. 1 工作原理锥形量热仪的主要工作原理是耗氧原理 , 当样品件在锥形电加热器的热辐射下燃烧时 , 火焰就会消耗掉空气中一定浓度的的氧气 , 并释放出一定的燃烧热值。

通过大量的实验测试和计算研究认为 , 绝大多数所测材料的耗氧燃烧热值接近 13. 1 M J/kg这一平均值 , 偏差约为 5%。

Accurate / Reliable / Robust / Innovative• Ergonomic, light weight, & durable design• Data management with automatic logging & report creation• Predictive maintenance with estimated sensor life & calibrationreminders• One touch pump On/Off with purge• PC software with wireless and USB connectivity• Auto pump cut-off for high CO levels• Graphical data display• Customisable gas analysis screen• Sample conditioning unit for low NOx & high moisture applications• Stack gas velocity with Pitot tube• Draft & differential pressure measurements• Emissions values adjusted for reference O2• CO & CO2Monitoring in Ambient Air• Hose extensions for tall & difficult to reach stacks• Wireless Printer• Protective rubber holster• Maintenance contracts and extended warranties availableUp to Six Gas Sensors. Caninlcude O2, CO, NO, Low NO,NO2, Low NO2, SO2, Low SO2,H2S, and CxHyTotal NOx & Low NOxCapableField Replaceable Pre-Calibrated SensorsNote: Phone not included.Google Play and the Google Play logo are trademarks of Google LLC.App Store is a service mark of Apple Inc.Large Colour Touch ScreenCO Dilution auto-range withmeasurements to 50,000 ppmReal-Time Display & ControlFREEappDimensionsTOUCHSCREENSi-CA 230 kit content • Si-CA 230 analyser• O2 & CO gas sensors(other gas sensors available, see Optional accessories)• CO Dilution Auto-Range to 50,000 ppm• Protective rubber holster • 300 mm flue gas probe with 3 m dual hose (other probe lengths available)• Water trap with filter • AC power supply / charger • USB cable• Mobile app & PC software • Internal wireless communication module • Carrying case• Quick Start Guide•Calibration certificateApps and software• Free apps for iOS & Android mobile devices • PC software with USB & wireless connectivity• Fast, easy wireless connection• Remote live view of combustion analysis data as list or graph • Remote control to change settings• Data saving, including automatic logging • Report creation in PDF, CSV (for Excel) and XML formats• Databases for customers, operators, &equipmentDownload app Graph viewData view Example of analyser screensParameter specifications(1)All accuracies indicated in this document were stated in laboratory conditions at 20 °C (68 °F) and can be guaranteed for measurement carried out in the same conditions.(2)Accuracy given for the analyzer only.(3)For Higher Heating Value / (4)For Lower Heating Value(1)General featuresOptional accessoriesMaintenanceWe carry out calibration, adjustment and maintenance of your devices to guarantee a consistent and accurate level of quality of your measurements. As part of Quality Assurance Standards, we recommend annual recalibration and maintenance check-up. WarrantyDevices have 2-year guarantee against any manufacturing defect (return to our After-Sales Service required for appraisal).FT_EN–Si-CA23–19/3/21–Non-contractualdocument–Wereservetherighttomodifythecharacteristicsofourproductswithoutpriornotice. Ordering InformationAll kits includ the following: a 300 mm probe rated to 800 °C (1472 °F) with 3 m dual hose, an ABS hard plastic carrying case, a rubber holster, a water trap with filter, a charger with plug set, a USB cable, a quick start guide and a calibration certificate。

Rev1燃烧氧气分析仪Endura AZ20系列探头Azipod® CZࡼᔞழࠆૺᔞழຳგ።፿፿᎖ሚࡔ࿾ၺᔞழࠆ)ຳგ*ࣖᄂࡼࢭݳါᅎ஠ᇹᄻ公司简介本公司是一家世界著名的仪器设计与制造公司，产品用于工业过程控制、流量测量、气体及液体分析以及环保应用。

作为过程自动化技术全球领袖ABB 的一员，我们为世界各地的客户提供专业的应用知识、服务及支持。

我们的宗旨是团队精神、高质量的生产、先进的技术以及无可比拟的服务与支持。

公司产品的质量、精度及性能来自于一百多年的经验，以及对于最新技术的创新设计与持久开发。

公司经营的10家流量校准厂中包括 UKAS 校准实验室0255号，代表着我们对于质量与精度的追求。

本手册中的信息仅用于帮助我们的用户高效地使用本公司生产的设备。

严禁将本手册用于任何其它目的，未经技术发行部事先许可，不得全部或部分复制本手册的内容。

健康与安全为了确保我们的产品安全而不影响健康，务必注意以下各点：1. 使用前必须仔细阅读本说明书的有关章节。

2. 必须遵守容器或包装上的警告标签。

3.必须由经过适当培训的人员按照所列信息进行安装、操作、维护及保养。

4. 务必遵守一般安全注意事项，以避免在高压与/或高温下运行时发生事故。

5. 保管化学品时必须远离热源，避免极高/极低的温度并保持粉尘干燥。

务必采用一般安全使用程序。

6. 在废弃化学品时，切勿混合两种不同的化学物质。

有关本手册所述设备使用的安全事项或任何相关的危害数据表（适用时）可以从本公司取得，地址如封底所示，同时提供保养及备件信息。

݀ৌㅔҟᴀ݀ৌᰃϔᆊϪ⬠㨫ৡⱘҾ఼䆒䅵Ϣࠊ䗴݀ৌˈѻક⫼ѢᎹϮ䖛⿟᥻ࠊǃ⌕䞣⌟䞣ǃ⇨ԧঞ⎆ԧߚᵤҹঞ⦃ֱᑨ⫼DŽ ԰Ў䖛⿟㞾ࡼ࣪ᡔᴃܼ⧗乚㹪ABB ⱘϔਬˈ៥ӀЎϪ⬠৘ഄⱘᅶ᠋ᦤկϧϮⱘᑨ⫼ⶹ䆚ǃ᳡ࡵঞᬃᣕDŽ ៥Ӏⱘᅫᮼᰃಶ䯳㊒⼲ǃ催䋼䞣ⱘ⫳ѻǃܜ䖯ⱘᡔᴃҹঞ᮴ৃ↨ᢳⱘ᳡ࡵϢᬃᣕDŽ݀ৌѻકⱘ䋼䞣ǃ㊒ᑺঞᗻ㛑ᴹ㞾Ѣϔⱒ໮ᑈⱘ㒣偠ˈҹঞᇍѢ᳔ᮄᡔᴃⱘ߯ᮄ䆒䅵ϢᣕЙᓔথDŽ݀ৌ㒣㧹ⱘ10ᆊ⌕䞣᷵ޚॖЁࣙᣀ UKAS ᷵ޚᅲ偠ᅸ0255োˈҷ㸼ⴔ៥ӀᇍѢ䋼䞣Ϣ㊒ᑺⱘ䗑∖DŽEN ISO 9001:2000䆕к㓪োQ 05907EN 29001˄ISO 9001˅ᛣ໻߽Lenno – 䆕к㓪ো9/90A㣅೑Stonehouse⇨ᅝܼ ᴀҾ఼ヺড়CEI/IEC 61010-1:2001-2Āᇍ⫼Ѣ⌟䞣ǃ᥻ࠊঞᅲ偠ᅸՓ⫼ⱘ⬉⇨䆒໛ⱘᅝܼ㽕∖āЁⱘ㽕∖DŽབҾ఼ⱘՓ⫼ᮍᓣϢᴀ݀ৌ᠔䇈ᯢⱘϡৠˈ߭䆒໛ᦤկⱘֱᡸৃ㛑㹿⸈ണDŽヺোϟ߫ヺোৃ㛑ߎ⦄೼Ҿ఼ᷛㅒϞ˖电气安全本仪器符合CEI/IEC 61010-1:2001-2“对用于测量、控制及实验室使用的电气设备的安全要求”中的要求。

燃烧分析仪使用说明书**燃烧分析仪使用说明书**一、简介燃烧分析仪是一种用于测定固体、液体或气体中元素含量的仪器。

它采用燃烧法，通过燃烧物料并利用检测装置测量特定元素的浓度。

本说明书将详细介绍燃烧分析仪的使用方法以及注意事项。

二、仪器操作步骤1. 准备工作在使用燃烧分析仪之前，需要确保设备连接正常，并检查供气、供液系统是否正常工作。

同时，确认样品的准备工作已完成，如将固体物料粉碎并溶解到合适的溶剂中。

2. 打开仪器按下电源开关，等待燃烧分析仪启动。

系统启动后，将屏幕设置为所需参数显示。

3. 样品准备取出一个空白样品容器，并用去离子水彻底清洗。

将待测样品精确地称量到容器中，并确保容器密封良好。

4. 装载样品将样品容器放入样品台，并通过仪器软件操作选择所需的分析方法。

5. 启动分析过程按下仪器的“启动”按钮，燃烧分析仪将自动进行燃烧分析过程。

此过程中，仪器将自动设定燃烧温度、保持时间和检测参数。

6. 结果分析待燃烧分析过程完成后，系统将生成测试结果。

用户可以在仪器显示屏上查看、记录和导出结果数据。

三、使用注意事项1. 安全使用使用过程中要确保操作人员具备一定的实验室操作经验，并严格按照操作规程进行。

注意使用耐火手套和防护眼镜等个人防护措施，以避免可能的伤害。

2. 设备维护定期进行设备检查和维护，以确保仪器的正常工作。

特别是对液氮供应系统和燃烧室进行清洁和检查，以保证分析结果的准确性。

3. 样品准备在进行燃烧分析之前，样品需经过充分的制备工作，确保样品的精确称量和密封。

同时，根据待测元素特点，选择适当的溶剂。

4. 操作环境使用燃烧分析仪的实验室应保持清洁和整洁，避免尘埃和杂质的干扰。

保持适宜的温度和湿度，以确保仪器的工作效果。

5. 结果分析在结果分析过程中，注意根据实际需求进行数据处理，并确保数据的准确性。

及时导出和记录测试结果，以备后续分析和参考。

四、故障排除1. 仪器无法启动检查电源是否连接正常，确保供电正常。

1．适用范围1.1本仪器适用于在电力、石化、冶金等工业领域和环境监测、节能能效测试以及高校科研的燃烧技术分析领域。

电化学传感器可测量6组分烟气参数，红外传感器可测量CO/CO2，综合了烟气压力、温度、流速等参数，是燃烧优化领域和环保监测领域中最理想的分析工具。

2．J2KN烟气分析仪操作步骤2.1烟气分析2。

1。

1连接采样管线和环境/烟气温度探针2.1.2首先打开基础模块；使用方向键选择子菜单“烟气分析”，按<OK>键确认后，仪器便开始为期1分钟的自动校准.校准期间烟气分析仪采样针不能置于烟道内。

2。

1.3然后进入“燃料类型”选项,按手操器键盘中间的〈OK〉键,选好燃料类型（上下键)再按<OK〉键,接下来仪器将询问是否使用数据处理，按F4选择“NO”，先进入主菜单；2.1。

4将采样探针放置于烟道中，以便热电偶和烟气环境充分接触.先确认探管处于烟道气的中心点（探管顶端处于烟气最高温度区域），然后再开始测量。

仪器带有烟气温度中心点搜索功能。

仪器显示“+”的时候,测量的温度在上升，表明探管向温度中心点移动;仪器显示“—”的时候，表明探管正远离向温度中心点，温度在下降.烟气温度稳定超过3秒后，指示符号会消失.2.1。

5正确的测量值会经过短时间的延时后才会显示，原因是烟气在仪器内部传输及传感器稳定的电化学反应积聚都需要时间，所以等待至少2分钟,测量数据稳定后方可记录、打印、保存；2。

2压力测量2.2。

1打开基础模块，使用方向键选择子菜单“压力测量”，会显示当前值和传感器校零指示。

这时从仪器接口处拔下压力管线，等几秒钟后按〈F4〉，传感器即被重新校准.2。

2。

1重新将压力管线插回仪器，就会显示确切的测量值,这时可以按〈内存〉键，可以将其存储到内存中此前的数据组中。

存储值会显示在屏幕上，按〈ESC>退出差压测量菜单.2。

3燃油烟黑测量2.3.1连接采样管线和环境/烟气温度探针2.3。

2首先打开基础模块，使用方向键选择子菜单“燃油烟黑测量”中可以输入锅炉温度、烟黑测量点和燃油油类.2。

BDN Automotive® CA-6Combustion Analyser USER MANUALIntroductionSustainability is the key of the future of motorsport, such as the consumer car market. Thus, advanced development technologies must be used to increase the efficiency of the currently used loud, stinky but thrilling power units. Combustion analysis is the first step on this route, which is currently a privilege of high-class motorsport teams and OEM-s. BDN Automotive® offers a simple and understandable combustion analyser for less than 20% of the cost of current devices on the market. Not only the price, but extraordinary user-friendly graphical interface makes this device remarkable amongst our competitors.CA-6 is an easy to use combustion analyser developed mainly for the motorsport sector. In the following document You will see all the necessary information to be able to use our product immediately, without days or weeks of setup and calibration.We do not take any responsibility for any damage (direct/indirect/consequential or any kind) caused by BDN Automotive® CA-6, although, this is a measurement only device, does not have anydirect control over the ECU parameters!BDN Automotive® CA-6 is not certified to be used on public roads, off-road use only!Use at your own risk!Made In EUContentsGeneral parameters (3)Pinout (4)Sensors (6)Additional information (6)Hall effect sensor (6)Pressure sensor channel measurement ranges (device speci fic according to the customer’s requirements) (7)Using with Kistler charge amplifier (7)Combustion analysis backgrounds (8)Software (8)Setup (9)Measure (13)Analyse (16)General parametersPinoutSOURIAU 8STA61435SN PLUG, contact size #22DSensorsAll sensors delivered by BDN Automotive are equipped with MIL-Spec connectors:•Sensor side: SOURIAU 8STA10635PN•Wiring loom side: SOURIAU 8STA60635SNAdditional informationHall effect sensorCompatible sensor type: active low NPN/open-drain output hall effect sensor, e.g.: Bosch HA-PIf the Engine Management Unit and the BDN CA-6 are connected to the same Hall effect sensor, and the sensor is power supplied from the Engine Management Unit, use a 1 conductor shielded cable to connect the signal to the BDN CA-6’s Hall sensor input [pin 4 or 5]. Connect the cable shield to pin 6.Pressure sensor channel measurement ranges (device specific according to the customer’s requirement s)Using with Kistler charge amplifierCharge amplifier setup:•Drift Compensation(DrCo) mode•Low-Pass Filter: LP off•Voltage Output Scaling: Offset 0VBefore starting a measuring cycle with pressing the Meas button on the amplifier, the BDN CA-6 must be in powered state (pin 29 and 30 connected to +12V power supply/battery), otherwise the charge amplifier’s output signal may cause permanent hardware dama ges.Connecting to BDN CA-6:Combustion analysis backgroundsCombustion analysisSoftwareThe software has been created to achieve a simple but effective layout in order to maximise the product effectiveness. This is the world’ first freely available combustion analysis software, however it is only compatible with BDN Automotive’s products.The software allows the user to perform real-time measurements and also to prepare log files that can be further investigated using the Analyse window. Log files can also be created with the help of the cycle counter that is mainly used for steady state points, and for cycle averaged results.The software description will be detailed on the following pages.SetupThe main setup window allows the user to define all necessary engine parameters and measuring modes. When defining the engine parameters, a maximum precision needs to be kept as they are heavily influencing combustion analysis parameters.Setup fileAll engine parameters can be stored in a setup file in order to make changes easier between engines. Setup files can be stored or loaded via the next icons.GeneralUnder the General window the user can define the measurement modes and parameters in connection with Measure window.User Interface ModeUser int erface mode allows to select between “Basic” and “Pro” modes. The selection infl uences the layout of Measure window. “Basic” mode shows only the vital parameters for a quick overlook and “Pro” allows to capture more information for an engineer with more experience. Important to mention that the interface mode selection is not influencing the information recorded in log files!Measuring modeMeasuring mode allows to select between “single cycle” and “average of cycles” functions.That has influence on Measure window. In “single cycle” mode every cycles are separately visible and can be recorded. In “average of cycles” mode only the averaged values of a given amount of cycles is visible. That mode is usually used for steady state points on rolling roads or engine dynos.More differences shown under the description of Measure window.UnitsThe user can switch between Metric or Imperial units.Maximum engine revolutionDefines the tacho limits under Measure window.EngineUnder Engine window the vital parameters of the given engine needs to be specified. All geometric parameters have to be defined within the tolerance of +/- 0.1mm, in order to get the most accurate results from the background computations.CrankshaftUnder the crankshaft window the crankshaft sensor and trigger wheel parameters needs to be defined. BDN CA-6 supports both variable reluctant and Hall type sensors. As there is a multiple option to connect trigger sensors the connected channel also need to be selected. (e.g.: VR1/VR2) At crankshaft triggerwheel setup the user can select from the most widespread OEM patterns. (Upon request unique patterns can be defined. However, we highly recommend to use 60-2 pattern to increase accuracy.) It is recommended to use the nominal TDC reference position for a given engine. That value will be overridden during the TDC initialization process in Pressure function.PressureThis window allows the user to define the pressure sensors built in the given engine and to define the exact TDC reference point used for the given setup file.TDC reference point determination mode:For the TDC reference point determination the engine needs to be used for a short period in fuel-cut (without combustion) mode. Speed the engine up to 2000-2500 Rpm, than inhibit injection in the ECU for 2-3 s. Press TDC search (??) button in the software while the injection is inhibited. The reference point position will be instantly updated. Only cylinders with pressure sensors can be for reference cylinders!Will be available later!MeasureMeasure window is used for data display under real-time measuring conditions and creating log files. The measure window has different layouts depending on the chosen modes in Setup window. The different functions and possibilities will be detailed separately for all conditions.Basic UIM, Single cycle:This measuring mode is generally used for real time, transient measurements, when the only the most important variables needs to be displayed.T he window’s left side features the log creation with the followingpossibilities:Log files can be created with different length. For a given amount of datathe limited length of log can be used, where a log counter creates the endof the log file. For other kinds of measurements “Continuous log” can beused, where the user defines the log file end by pressing “Stop log”.The mid part of the window shows the most important cycle variables andthe pressure curve real time per each cycle.The cursor on the top helps to set the demanded area of the pressure curve graph, therefore it is possible to focus on the most important part of the cycle. (gas exchange, combustion, etc. ) Beside that the demanded cylinders can be selected for data display. By double clicking on the graphs’limiting numbers and setting the new limits the graph can be reshaped.The tacho and the table below shows the current cycle data, such as Peak Pressure, Knock Peak Amplitude [bar], and MassFractionBurned50 [CrA°] for every cylinders.On the right side of the window the history graphs are displayed. There the most important recent cycle values can be traced back, in order not to miss any events.Pro UIM, Single cycle:The Pro mode is very similar the previously detailed basic mode, however, with more variablesshown in the history graphs.Average of cycles modeIn the average of cycles mode has been created to better observe and evaluate calibration changes in steady state points. Parameter fluctuations due to cycle variance is commonly observable, thereforereal-time data evaluation could be problematic.The page layout seems very similar to the previous UIMs. The upper table and graph show the averaged values and the lower ones show the fluctuation of the parameters. It is highlyrecommended to average at least 100 cycles to ensure accuracy and repeatability!AnalyseAnalyse window allows the user to evaluate log files created under Measure window. Log files can be loaded through the next part of the window.The analysed cylinders can be selected through the cylinder selector part. The selected cylinders will be displayed with the tick’s colour.Cycles in main windowThe analyse main window features a list of history graphs that indicate the most important recorded variables through the measurement. The cursor that selects the given cycle can be moved in the RPM window.On the right side of the window the current average (throughout the measurement) values are indicated for each variable. By right clicking on the graphs the data from the windows can be copied and used in other programs.Cycles in floating windowMain window show the history graphs of a given log file and gives insight only to cycle variables. Sometimes, a detailed insight into a cycle is also necessary, therefore cycles can be opened in a floating window as well.The data from the floating window can be copied in the same way as from the main window.。