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产品分类 |
石油专用分析仪器
ECH无载气全自动卡尔费休水分测定仪
法国AD全自动烟点测定仪SP20
铜片腐蚀试验仪
自动冷滤点测试仪
自动软化点试验仪
自动石油产品蒸馏试验仪
aap-6自动苯胺点试验仪
ACR-M3自动微量法残炭测试仪
ACR-6自动康氏残碳试验仪
mpc-6自动微量倾浊点测试仪
粘度计
CANNON DVR-1000数字式真空泵
Ravenfield HTHS高温高剪切粘度仪
Cannon全自动低温布氏粘度仪TESC
miniQVTM-X快速自动粘度测定仪
Cannon沥青低温弯曲梁流变仪BBR
CANNON TE-1500F/TE-3000F高精度低温运动粘度测定仪
CANNON CCS-2100F发动机油表观粘度测定仪
CANNON POLYVISC顶级全自动聚和物粘度测定仪
CANNON CT-2000F高精度运动粘度恒温浴
CANNON CMRV发动机油边界泵送温度测定仪
其他
Rudolph数字式密度计DDM2909
Rudolph数字式密度计DDM2910
Rudolph数字式密度计DDM2911 Plus
Rudolph数字式密度计DDM 2911
屹尧M6微波消解仪
TESC5133布氏扫描黏度(凝胶指数)测定仪
便携式残余燃料稳定性和相容性测试仪ST10
AD systems SP10自动烟点测定仪符合ASTM D1322,ASTM D1655
AD systems CT10自动防锈性能试验钢棒分级测定仪
全自动雷德法饱和蒸汽压测定仪
测量/计量仪器
ThermoProbeTL3
TL1-A实验室防爆数字式温度计
TL1-R实验室高精度数字式温度计
TL1-W实验室防爆数字式温度计
TL2实验室高精度数字式温度计
TP7-C型防爆安全温度计
TP9型防爆安全温度计
便携式油罐防爆温度计TP5C
恒温/加热/干燥设备
ASTM D86样品制备浴
恒温循环浴
TLC15低温循环器
工业在线及过程控制仪器
OilCon Mon在线油液健康状态传感器
光学仪器及设备
美国鲁道夫J457折光仪
试验机
DUCOM FBT-3四球摩擦磨损试验机
微生物检测仪器
FUELSTAT® resinae PLUS测试套件
水分测定仪
JF-WA1航空燃料中游离水测定仪
电化学仪器
实验室电导率测定仪
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产品系列
烟点的测试方法是石油行业中*古老的测试方法之一,也是从未自动化的手动测试方法之一。手动测试要求具有经验、熟练的技术人员,而且测试很耗时间。
如今试验中依靠目测作为评定方法的缺点在于受操作人员主观判断的限制。目测的方法对实验人员来说也是非常具有挑战性和危险性的。
The SP 10 带来了烟点检测的全新手段。它使用了摄像机观测火焰并可调节火焰大小的系统。当火焰达到测试方法要求的形状时,The SP 10 会对火焰高度进行存储和报告。
优点 1.快速、简单、实用
2.提高安全性
3. 降低劳动力
4.以更高的精度严格模拟手动测试方法
5.非常简洁的设计
意义和用途
本方法为处在火焰状态下的煤油和航空涡轮燃料提供了有关发烟性能的指标。烟点与组成这些燃料的碳氢化合物的类型有关。一般情况下,燃料中含有的芳香烃越多,发烟性越大。一个高的烟点表示这种燃料具有较低的发烟趋势。
烟点很大程度上与燃料燃烧中辐射热能的热传递有关。因为辐射热能的传递受到燃烧器金属温度和其他燃气涡轮部分发热区域的强烈影响,而烟点则为这些部件相接触的燃料提供了相关燃料特性的依据。
原理 The SP 10 采用了以能够观测火焰和调整火焰大小驱动器的摄像机为基础的**系统。火焰的图像是数字化的,而且当火焰的形状符合测试方法中所要求的时候,有专门的软件用于确定火焰的高度。这时的火焰是无烟火焰的**高度。
技术条件 | 产品描述 |
测试时间 | 小于10分钟 |
分辨率 | 0.1毫米 |
结果存储 | 仅限于外部设备的容量 |
局域网连通性 | 以太网端口RJ45 |
打印机输出 | USB(任何打印机) |
数据输出 | USB(2)以太网 |
尺寸规格(毫米)长x宽x高 | 330 x 390 x 413 (13”x 15”x 16”) |
The smoke point method is one of the oldest test methods in petroleum industry. It is one of the last manual methods that has never been automated before. To be able to run manually this test, it requires high skilled technicians with a long experience and in addition it is time consuming.
The current visual rating method used for specification purposes suffers from the drawback of operator subjectivity. The visual measurement of an open flame is a very challenging exercise and very dangerous for lab personal.
The SP 10 revolutionizes this test. It uses a system that adjusts the size of the flame associated to a video camera that observes the flame. When the flame gets the shape described in the test method, the SP 10 memorizes and reports the height of the flame.
Benefits
1、Quick, easy, and objective rating
2、Increases safety
3、Reduces labor
4、Mimics strictly the manual method with improved precision
5、Very compact design
The SP 10 is an automated instrument that strictly follows the test method with an improved precision. It eliminates the subjectivity inherent to the manual test. The visual rating of the flame varies from one operator to another. Thanks to the digital imaging, the height of the flame which has the shape described in the test method is precisely observed and it is always recorded in the same conditions.In addition, the SP 10 eliminates all safety risks linked to the visual observation of an open flame. The test is carried unattended which drastically reduces labor.
Significance and Use
This test method provides an indication of the relative smoke producing properties of kerosines and aviation turbine fuels in a diffusion flame. The smoke point is related to the hydrocarbon type composition of such fuels. Generally the more aromatic the fuel the smokier the flame. A high smoke point indicates a fuel of low smoke producing tendency.The smoke point is quantitatively related to the potential radiant heat transfer from the combustion products of the fuel. Because radiant heat transfer exerts a strong influence on the metal temperature of combustor liners and other hot section parts of gas turbines, the smoke point provides a basis for correlation of fuel characteristics with the life of these components.
Principle
The SP 10 uses a patented system based on a video camera that observes the flame and an actuator thatadjusts the size of the flame. The flame image is digitalized and the dedicated software determines the height of the flame when its shape corresponds to the one described in the test method. This specific flame is the one with the maximum height without smoke generation.
Technical specifications | Description |
Test duration | Less than 10 minutes |
Resolution | 0.1 mm |
Results storage | Limited only to capacity of external device |
LAN connectivity | Ethernet port RJ45 |
Printer output | USB (printer is optional) |
Data output | USB (2), Ethernet |
Dimensions (mm) W x D x H Weight | 330 x 390 x 413 (13”x 15”x 16”) 10 kg (22 lb) |