符合规范和规定
- 确保符合产品规格
符合 ASTM 和 EN 标准 - 确认符合 TIER 和 EURO
法规(如燃料中的硫含量) - 最终产品(如燃料、可燃物、碳氢化合物)的纯度控制
可燃物、碳氢化合物)
满足最严格的产品规格是遵守法规和法律限制的关键。我们提供的技术和方法可帮助您利用最大灵敏度分析实现燃料和其他炼油产品的高产品价值。
核实产品规格并解决复杂问题
- 用于选择标准的方法库
- 生命周期管理(耗材、服务和应用支持)
- 针对任何工作量的灵活自动化
- 符合标准的分析和报告
- 符合客户规格的定制方法
- 使用液体标准品轻松校准
- 优化的定量基质分离
- 适用于整个应用范围的智能采样系统
维护更少、数据更好、价值更高
- 耗材需求低,可最大限度地降低总体拥有成本
- 遍布全球的支持团队
- 分析数据即时可用,提高生产率
- 加压气体和液化石油气操作安全性高
- 不同基质类型之间的快速切换
- 出色的检测和测量灵敏度
- 最少的样品制备
使用我们的产品进行分析
- 燃料(如柴油、汽油、煤油、取暖油)中无干扰的硫测定
- 相关元素(如钒、钨、铁、镍、硅、钴、汞、磷)的痕量分析
- 测定石油碳氢化合物中的氮、硫和氯痕量杂质
- 脂肪族和芳香族碳氢化合物中的元素杂质
- 己二酸和聚合物中的氮杂质
- 痕量催化剂残留物
- 聚合物工业和化学工业的超纯原料
- 碳酸和脂肪酸、石蜡中的氯和硫
根据 ASTM D5453、EN 16476 和 ASTM D4929 等标准进行最可靠的分析,满足质量和合规要求。从石脑油中氯的测定到发动机油中氮的检测,耶拿分析公司的仪器可为任何任务提供优化方法。此外,从确认纯度到批准最终产品的定制规格,我们还能通过最灵敏的分析满足最高的质量要求。耶拿分析公司的分析仪可确保无与伦比的精度,不受分析基质(如加压液化丙烯、高挥发性戊烷或橡胶样品)的影响。
去除燃料中硫测定的氮干扰
总硫 (TS) 是燃料质量控制的常规参数。然而,由于氮的干扰会使结果失真,因此分析工作具有挑战性。现在,已有创新技术可以抑制这些干扰,为实验室节省大量的分析时间和精力。
应用
Diesel Fuels and Fuel Additives – Interference-free Determination of Sulfur Traces by UV Fluorescence Detection with MPO
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Heavy Fuel Oil, Feed Materials and Residues – Trustable Determination of High Nitrogen Contents in Viscose, Complex Matrices
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Determination of Total Chlorine in Palm Oil with the Elemental Analyzer multi EA 5100
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Elemental Analysis for N/S/Cl Determination in Biofuels and Their Precursors
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Determination of Total Volatile Sulfur in Gaseous Hydrocarbons and Liquefied Petroleum Gases by Ultraviolet Fluorescence According to ASTM D6667 resp. ASTM D7551
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Determination of Sulfur Content of Automotive Fuels – Ultraviolet Fluorescence Method According to EN ISO 20846 – Removal of Nitrogen Interferences by N-based Cetane Improvers
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Determination of Total Sulfur in Light Hydrocarbons, Spark Ignition Engine Fuel and Diesel Engine Fuel by Ultraviolet Fluorescence according to ASTM D5453
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Determination of Total Sulfur in Aromatic Hydrocarbons and Related Chemicals by UV Fluorescence according to ASTM D7183
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TN Determination in Bio-based Fuels According to ASTM D4629 – Standard Test Method for Trace Nitrogen in Liquid Hydrocarbons by Syringe/Inlet Oxidative Combustion and Chemiluminescence Detection
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Determination of Trace Nitrogen Contents in Different Types of Fuels and Fuel Blends According to ASTM D4629 resp. DIN 51444
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Determination of Ultra Low Nitrogen in Aromatic Hydrocarbons by Oxidative Combustion and Reduced Pressure Chemiluminescence
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Fast and Reliable TS Determination in Liquefied Pressurized Gases (LPG) according to ASTM D6667, ASTM D7551, and DIN EN 17178
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Determination of Ultra Low Nitrogen in Aromatic Hydrocarbons by Oxidative Combustion and Reduced Pressure Chemiluminescence Detection Acc. to ASTM D7184
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Determination of Nitrogen Contents in Petroleum Products by Boat-Inlet and Chemiluminescence Detection Acc. to ASTM D5762
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Determination of Trace Nitrogen in Liquid Petroleum Hydrocarbons by Oxidative Combustion and Chemiluminescence Detection Acc. to ASTM D4629 / DIN 51444
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Determination of Total Sulfur in Aromatic Hydrocarbons and Related Chemicals by Ultraviolet Fluorescence acc. to ASTM D7183
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Standard Test Method for Determining Organic Chloride in Aromatic Hydrocarbons and Related Chemicals by Microcoulometry acc. to ASTM D5808
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Determination of Total Chlorine in Different Types of Hydraulic Fluids by Coulometric Titration After High-temperature Combustion
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Ultra-sensitive High-throughput TS Analysis in Light Hydrocarbons, Spark Ignition Engine Fuel, and Diesel Engine Fuel by UV Fluorescence according to ASTM D5453 - Vertical Approach
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Matrix-independent TS Determination in Light Hydrocarbons, Spark Ignition Engine Fuel, and Diesel Engine Fuel by UV Fluorescence according to ASTM D5453
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Test Method for Total Chlorine in New and Used Petroleum Products by Oxidative Combustion and Microcoulometry according to IP 9076 resp. UOP 9076
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Specification Analysis of Gasoline by HR ICP-OES
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AppNote Analysis of Elemental Impurities in Diesel by HR ICP-OES according to ASTM D7111-16 (English)
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Analysis of elemental impurities in naphtha by ICP-MS according to ASTM D8110-17 (English)
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