SeNse是AC Analytical Controls最新开发的。硫化学发光检测器(SCD)提供了超高的灵敏度，非常稳定的基线和极佳的结果重复性。因此，它可以灵活地适用于大多数色谱解决方案。
根据ASTM D5623用气相色谱和可选择的硫元素探测器分析轻质石油液体中的硫化合物，同时根据ASTM D5504用气相色谱和化学发光法分析天然气和气体燃料中的超低含量的硫化合物。
AC Analytical Controls®，全球常压馏程市场的领导者，提供全方位的解决方案，准确测定从石脑油到原油样品的真实馏程数据。
AC's Fast Refinery Gas Analyzer by PAC Separates Inert Gases and C1-C5 Hydocarbons in 20 Minutes. AC Analytical Controls by PAC developed the Fast Refinery Gas Analyzer (RGA), a fast solution that determines the composition of refinery gases within twenty minutes.
PAC's AC Analytical Controls offers the Hi-Speed Refinery Gas Analyzer, a high speed solution that determines and reports the composition of refinery gas streams in only five minutes.
Full range of DHA solutions for applications to comply with ASTM D 5134,D 6729, D 6730 and D 6733
The AC Analytical Controls Biodiesel All in One analyzer quickly determines the quality of fatty acid methyl esters (FAME) blending stock for diesel fuel, and yields results fast from a single dedicated system.
Specifically designed for routine analysis by refineries, distribution and pipeline companies, independent labs, airline companies, military, or any other organization required to measure FAME (biodiesel) in jet fuel.
Solves the toughest analytical challenges through a GC that is designed, built, and tested for your specific application, to perform exactly as desired for the particular sample stream
The Crude Oil Analyzer combines the results of DHA Front End (FE) and High Temp (HT) SIMDIS analyses into one total true boiling point (TBP) report for the best performance in crude oil analysis.
The AC Analytical Controls® CNS SIMDIS for Crude Oil is the most advanced analyzer on the market to simultaneously determine the boiling range distribution of Carbon, Nitrogen, and Sulfur in crudes and final products.
AC Analytical Controls® offers the Extended Hydrocarbon Oil Index analyzer to determine the content of dispersed mineral oil between n-C7 and n-C40 in water by means of gas chromatography.
ACs Flow Modulation based solutions provides group-type analysis that is rugged, requires very low maintenance, and performs excellent.
AC Analytical Controls developed a series of Oxytracer Solutions to determines trace impurities of oxygenates in light petroleum streams such as C2 and C3 gases, LPG, Naphtha and Gasolines, in accordance with different methods.
The AC Analytical Controls® AC8612 application delivers ASTM D86 correlated data for naphtha and gasoline samples within ASTM D86 groups 0, 1, and 2 in 15 minutes. It is based on fast detailed hydrocarbon analysis (DHA), and uses the PAC proprietary Fugacity Film Calculation Model for reporting accurate D86 correlated data.
To assist refiners in determining D86 boiling range data AC Analytical Controls developed the AC 8634 application. Gas chromatography and thermodynamics are the basis of the 8634 analyzer.
The AC Analytical Controls by PAC D5501 Ethanol Content of Denatured Fuel Ethanol application ensures complete compliance with ASMT D 5501
To assist refiners in determining the aromatic content of diesel fuels, AC Analytical Controls developed a fast, robust and easy-to-use system: The AC Mid Distillates Analyzer (MDA).
Hydrocarbon Group Type Analysis
AC Analytical Controls by PAC offers a solution to characterize the composition of natural gases according to GPA 2261 with results within 25 minutes.
AC Analytical Controls offers a solution to characterize the composition of natural gases according to GPA 2286 with results within 30 minutes.
The AC UOP 603-13 Gas Analyzer is a specialized solution for determination of trace CO and CO2 in hydrogen and light gaseous hydrocarbons analysis according to UOP 603-13. The method was developed by UOP based on an AC Analytical Controls design.
The FTO system analyzes streams with concentrations of 0.2%-35% olefins. This GC system determines C4 - C10 olefins in all finished motor gasolines, straight naphthas and FCC naphthas.
The AC Analytical Controls Thiophene in Benzene application meets ASTM D7011 standards by determining trace thiophene in refined benzene by gas chromatography and sulfur selective detection.
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