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X-5000 Oil Analyzer
The X-5000 analysis project and application areas include sulfur analysis. The international community's restriction and control of sulfur content in
Product details
X-5000Analyze projects and application areas
■Sulfur analysis
The international community's restriction and control of sulfur content in petrochemical products, especially oil products, has become a key environmental protection focus. If there is too much sulfur in the fuel, it is easy to undergo oxidation reaction with the air dissolved in the fuel, which reduces the stability of the fuel.
During the fuel process, sulfur can also reduce the conversion of toxic emissions, causing corrosion of the engine fuel system. In addition, sulfur dioxide produced by sulfur combustion also seriously pollutes the natural environment.
● Meet ASTM D4294, which refers to the standard test method for detecting sulfur in petroleum and petrochemical products using X-ray fluorescence spectroscopy, requiring an approximate range of S from 17ppm to 4%.
● Meet ASTM D7220, which refers to the standard test method for detecting sulfur in vehicle fuel using X-ray fluorescence spectroscopy. The approximate range of S is required to be between 6ppm and 50ppm, with most regulations requiring<10 ppm LOD
Wear element analysis
By analyzing the results of fuel oil, additives, and lubricants, the trend of specific wear elements can be controlled, and precise detection of elements such as Fe, Al, Mo, Cu, etc. can be carried out. Based on different element concentrations, the wear of metal machinery and the necessity of oil replacement can be determined, and damage to the engine or moving parts can be prevented in advance.
Monitoring specific wear elements plays a crucial role in the maintenance and normal operation of various types of machinery, heavy trucks, mining, aerospace, military, and ships.
Additive analysis
The protection of precision equipment under extreme temperatures and heavy loads requires high-quality lubricating oil, which is mixed according to a special formula of organic and metal additives.
Meet ASTM D6481, which refers to the standard testing method for calcium, phosphorus, sulfur, and zinc in lubricating oils using X-ray fluorescence spectroscopy.
■Analysis of Trace Elements in Fuel and Petrochemical Products
● Search for residual pollutants in catalysts
Introducing trace pollutants into the mixture of biofuels and ethanol
■Analysis of Sulfur Content in Marine Ship Fuel
Controlling SOx content is considered as a method of controlling fuel sulfur content in local regulations. The emission control area for special fuel quality regulations exists in the SOx emission control zone (SOx ECA or SECA). These areas include ports and coastal lines.
The limits on sulfur content are as follows:
Year |
SECA |
Global |
2000 |
1.5% |
4.5% |
2010 |
1% |
|
2012 |
1% |
3.5% |
2015 |
0.1% |
|
2020 |
0.1% |
1.5% |
application area
Petrochemical industry, large machinery, ship transportation, processing and manufacturing, aerospace, heavy-duty transportation, thermal and wind power generation, liquid element analysis, laboratory analysis applications, and other fields of oil analysis.
X-5000Compliant testing standards
USA ASTM D4294 Test Method for Sulfur in Petroleum and Petroleum Products
USA ASTM D7220 Standard Test Method for Sulfur in Petroleum and Petrochemical Products
USA ASTM D7039-2007 Test Method for Sulfur in Gasoline and Diesel Fuel in the United States
USA ASTM D5453-2009 Test Method for Total Sulfur Content in Engine Fuel and Oil in the United States
ASTM D6481-1999 Standard Test Method for Phosphorus, Sulfur, Calcium, and Zinc in Lubricating Oils in the United States
ISO 8754-2003 International Petroleum Products - Determination of Sulfur Content
ISO 20847-2004 Determination of sulfur content in petroleum products and motor vehicle fuels
ISO 13032-2010 Determination of sulfur content in international gasoline fuels
ISO 20847-2004 Determination of sulfur content in petroleum products and motor vehicle fuels
GB/T17040-1997 Determination of sulfur content in Chinese petroleum and petroleum products
GB/T 17060-1998 Determination of Sulfur Content in Chinese Crude Oil
SH/T 0631-2004 Determination of Barium, Calcium, Phosphorus, Sulfur, and Zinc Content in Lubricating Oils and Additives
X-5000Oil analyzer can test elements
X-5000Analysis mode and element types of oil analyzer | |
Analysis mode |
Analyze elements |
Analysis Elements in Beam1- 40KV |
Primary: Co, Ni, Cu, Zn, Hg, As, Se, Pb, Mo, Cd, Sn, Sb Also: Ti, V, Cr, Mn, Fe, LE |
Analysis Elements in Beam2-10KV |
Primary: P, S, Cl, Ca, Ti, V, Cr, Mn, Fe, LE |
X-5000Technical specifications of oil analyzer
project |
Oil analysis instrument Innov-X X-5000 |
Dimensions and weight |
328*280*380mmWeight<11KG |
Environmental requirements |
Environmental humidity 0-95%: Environmental working temperature -20 ℃ -50 ℃: |
Source of excitement |
High power micro straight board electronic X-ray tube with built-in 0KV-50KV multi-stage selectable voltage: no high-voltage cables, wireless frequency noise, better X-ray shielding, better heat dissipation |
X-ray tube target material |
Agtarget |
XRadiation detector |
Ultra high sensitivity large SDD silicon drift detector |
Cooling system |
Adopting a Peltier constant temperature cooling system, the detector operates at -30 ℃ to ensure the detection accuracy of the instrument and is not affected by external temperature |
wave filter |
Eight filters can automatically switch |
Voltage, current, and power |
Voltage 0-50KV, current 100-200ua |
Spectral beam |
Five beam segments, with different elements using different voltages and currents, resulting in analysis effects |
Standardization |
The instrument does not require standardization when turned on and can be directly tested. Standardization is only an optional option |
DC power supply system |
Lithium battery pack (optional) |
Electricity storage |
Capable of battery storage, can replace batteries without shutting down |
operating system |
User oriented Windows CE6.0 system |
processor |
In Pentium CPU.1.4GHZ |
data transmission |
USBWireless Bluetooth |
file format |
TXT、 EXCEL |
System CPU peripherals |
Using USB bus, 12C GPIO、 Bluetooth, accelerator, real-time clock chip, GPIO strip connected toAnd PSM |
data storage |
RAM51220GB hard drive |
Radiation safety protection performance |
Triple radiation protection+lead shield |
display system |
The monitor is embedded in the machine, with an integrated design that uses an industrial grade high-resolution 16 bit LCD touch display color screen |
Display frequency |
Color screen 10 inches: resolution 800 * 600 |
data display |
Element content can be displayed in ppm and percentage (%), and the order of element display can be sorted by energy, concentration value, user-defined, etc. The average value of multiple tests can be calculated. The instrument dynamically displays the composition synchronously during the testing process |
X-5000Element detection limit of oil analyzer
Element Detection Limits | |
Element |
LOD(ppm) (180s) |
Phosphorus |
30 |
Sulfur |
12 |
Chlorine |
15 |
Molybdenum |
1 |
Calcium |
5 |
Vanadium Vanadium |
1 |
Manganese |
1 |
Iron Iron |
1 |
Cobalt |
1 |
Nickel |
1 |
Copper Copper |
1 |
Zinc Zinc |
1 |
Mercury |
1 |
Arsenic arsenic |
1 |
Lead Lead |
1 |
Selenium |
1 |
X-5000Comparison of Standard Sample Data for Oil Analyzer
Sample |
Lab Assay |
X-5000 Measured |
Sam1623C |
0.381% |
0.381% |
Sam1619B |
0.696% |
0.714% |
Sam1621E |
0.948% |
0.991% |
Sam1622E |
2.146% |
2.139% |
Sam2717A |
2.996% |
3.016% |
Sam1620C |
4.561% |
4.584% |
Shell 45 |
0.54% |
0.473% |
HFO 31552 |
0.97% |
0.835% |
HiS HFO380 |
3.98% |
3.671% |
MECO 5040 |
0.860% |
0.817% |
MECO5040/100 |
0.926% |
0.998% |
MECO5070 |
0.975% |
0.964% |
MECO5070/100 |
1.05% |
1.043% |
MESYS3006 |
0.508% |
0.501% |
MESYS3006/100 |
0.551% |
0.623% |
MAEO 4030 |
0.577% |
0.584% |
MAEO 4030/100 |
0.654% |
0.683% |
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