Expertise, Experience, Excellence
Whether you are a market leader in need of a consistent merchandise forwarder or a marine company seeking world-class offshore support, Spectra Fuels are here to flourish your business, even in difficult times.
About Spectra Fuels
About Spectra Fuels
Our Services & Offerings
We are currently known as leading bunkering partner in India and also have strong global connection to enable effective services to our customers.
To become world class leader in bunkering services across the globe
To present a wide spectrum of bunkering solutions to bunker buyers, sellers, suppliers, and others at worldwide ports through highly motivated and skilled employees, along with the right technology, 24×7 quick response, smooth operations, effective compliance, and deep knowledge of the market.
To become a global leader in bunkering procurement
The major vision of Spectra Fuels is to become a world class leader in business that cultivates lives and contributes in building effective infrastructure while maintaining sustainable values and business ethics.
Trust, Integrity, Commitment, Excellence, and Humility.
We leverage big data analytics to enable superior values to our customers. Our professionalism and experienced-approach amalgamated with our love for these magnificent ships at sea drive us to seize every opportunity and deliver efficiency every time.
Why Choose Us
We offer a range of alternative solutions in terms of Port, Price, Credit, Fuel Quality, Fuel Quantity & Services. We assist our clients throughout the bunker scheduling process. Ensure savings in transportation, overhead, and fuel costs as well.
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NewYork
London
Dubai
India
Singapore
FIND OUT WHY WE ARE ONE OF THE WORLD’S LEADING BUNKERING FIRMS HERE.
Fuel Specifications
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/sa) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | % (m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
RMG 180
Characteristic | Unit | Limit | RMG 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 180.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | (% m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/Sa) | Min. Max. |
2.000 6.000 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperf) in summer | (0C) | Max. | 0 |
Pour point (upperf) in winter | (0C) | Max. | -6 |
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
Cloud Point f in Winter | (0C) | Max. | report |
Cloud Point f in Summer | (0C) | Max. | – |
Sulphurb | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue | (% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.010 |
Total sediment by hot filitration | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Lubricity, corrected wear scar diameter
(wsd 1,4) at 60O C h Calcium and Zinc, or Calcium and Phosphorous |
(µm) ( g/m3) |
Max |
520 25 |
Oxidation Stability | (g/m3) | Max. | 25 |
Fatty Acid Methyl Ester (FAMEe) |
(% V/V) | Max. | – |
Cold filter plugging pointf In Winter | (0C) | Max. | Report |
Cold filter plugging pointf In Summer | (0C) | Max. | – |
Appearance | Clear and Brightg |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/sa) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | % (m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
RMG 180
Characteristic | Unit | Limit | RMG 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 180.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | (% m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/Sa) | Min. Max. |
2.000 6.000 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperf) in summer | (0C) | Max. | 0 |
Pour point (upperf) in winter | (0C) | Max. | -6 |
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
Cloud Point f in Winter | (0C) | Max. | report |
Cloud Point f in Summer | (0C) | Max. | – |
Sulphurb | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue | (% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.010 |
Total sediment by hot filitration | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Lubricity, corrected wear scar diameter
(wsd 1,4) at 60O C h Calcium and Zinc, or Calcium and Phosphorous |
(µm) ( g/m3) |
Max |
520 25 |
Oxidation Stability | (g/m3) | Max. | 25 |
Fatty Acid Methyl Ester (FAMEe) |
(% V/V) | Max. | – |
Cold filter plugging pointf In Winter | (0C) | Max. | Report |
Cold filter plugging pointf In Summer | (0C) | Max. | – |
Appearance | Clear and Brightg |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500 Cb | (mm2/s) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (Upperf ) in summer | (0C) | Max. | 30 |
Pour point (Upperf ) in Winter | (0C) | Max. | 30 |
Carbon residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurc | (% m/m) | – | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
mg/kg | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphided | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mg/kg) | Max. | 2.5 |
RMG 180
Characteristic | Unit | Limit | RMG 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500 C | (mm2/sa) | Max. | 180 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperf ) in summer | (0C) | Max. | 30 |
Pour point (upperf ) in Winter | (0C) | Max. | 30 |
Carbon residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurc | (% m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (% m/m) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
mg/kg | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphided | (mg/kg) | Max. | 2.00 |
Acid Numbere | (mgKOH/g) | Max. | 2.5 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/s) | Min Max |
2.000 6.000 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd ) in summer | (0C) | Max. | 0 |
Pour point (upperd ) in summer | (0C) | Max. | -6 |
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
Cloud Point | (OC) | Max. | – |
Sulphurb | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue |
(% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.010 |
Total sediment by hot filtration | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Lubricity, corrected wear scar diameter (wsd 1,4) at 60O Ch |
µm | Max. | 520 |
Oxidation Stability | (g/m3) | Max. | 25 |
Appearance | Clear and Bright |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperb ) in summer | (0C) | Max. | 30 |
Pour point (upperb ) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18 |
Ash | (% m/m) | Max. | 0.15 |
Water | (% V/V) | Max. | 0.5 |
Sulphurc | (% m/m) | Max. | statutory requirements |
Vanadium | (mg/kg) | Max. | 300 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 80 |
Used lubricating oil (ULO): Zinc Phosphorus Calcium |
(mg/kg) | Max. | The fuel shall be free from ULOd Zinc – 15 Phosphorus – 15 Calcium – 15 |
RME 180
Characteristic | Unit | Limit | RME 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 180.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperb ) in summer | (0C) | Max. | 30 |
Pour point (upperb ) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 15 |
Ash | (% m/m) | Max. | 0.10 |
Water | (% V/V) | Max. | 0.5 |
Sulphurc | % (m/m) | Max. | Statutory Requirements |
Vanadium | (mg/kg) | Max. | 200 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 80 |
Used lubricating oil (ULO): Zinc Phosphorus Calcium |
(mg/kg) | Max. | The fuel shall be free from ULOd Zinc – 15 Phosphorus – 15 Calcium – 15 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/Sb) | Min Max |
1.50 6.00 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperc ) in summer | (0C) | Max. | 0 |
Pour point (upperc ) in Winter | (0C) | Max. | -6 |
Cloud Point | (OC) | Max. | – |
Sulphur | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue |
(% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.01 |
Total sediment, Existent | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Appearancef | (mgKOH/g) | Max. | Clear and bright |
Vanadium | (mg/kg) | Max. | – |
Aluminium plus Silicon | (Mg/kg) | Max. | – |
Used lubricating oil (ULO): Zinc Phosphorus Calcium |
(Mg/kg) | Max. | – – – – |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/sa) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
gate iogate iogate io | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | % (m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
RMG 180
Characteristic | Unit | Limit | RMG 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 180.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | (% m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/Sa) | Min. Max. |
2.000 6.000 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperf) in summer | (0C) | Max. | 0 |
Pour point (upperf) in winter | (0C) | Max. | -6 |
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
Cloud Point f in Winter | (0C) | Max. | report |
Cloud Point f in Summer | (0C) | Max. | – |
Sulphurb | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue | (% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.010 |
Total sediment by hot filitration | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Lubricity, corrected wear scar diameter
(wsd 1,4) at 60O C h Calcium and Zinc, or Calcium and Phosphorous |
(µm) ( g/m3) |
Max |
520 25 |
Oxidation Stability | (g/m3) | Max. | 25 |
Fatty Acid Methyl Ester (FAMEe) |
(% V/V) | Max. | – |
Cold filter plugging pointf In Winter | (0C) | Max. | Report |
Cold filter plugging pointf In Summer | (0C) | Max. | – |
Appearance | Clear and Brightg |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/sa) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | % (m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
RMG 180
Characteristic | Unit | Limit | RMG 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 180.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd) in summer | (0C) | Max. | 30 |
Pour point (upperd) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurb | (% m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
(mg/kg) | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mgKOH/g) | Max. | 2.5 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/Sa) | Min. Max. |
2.000 6.000 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperf) in summer | (0C) | Max. | 0 |
Pour point (upperf) in winter | (0C) | Max. | -6 |
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
Cloud Point f in Winter | (0C) | Max. | report |
Cloud Point f in Summer | (0C) | Max. | – |
Sulphurb | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue | (% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.010 |
Total sediment by hot filitration | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Lubricity, corrected wear scar diameter
(wsd 1,4) at 60O C h Calcium and Zinc, or Calcium and Phosphorous |
(µm) ( g/m3) |
Max |
520 25 |
Oxidation Stability | (g/m3) | Max. | 25 |
Fatty Acid Methyl Ester (FAMEe) |
(% V/V) | Max. | – |
Cold filter plugging pointf In Winter | (0C) | Max. | Report |
Cold filter plugging pointf In Summer | (0C) | Max. | – |
Appearance | Clear and Brightg |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500 Cb | (mm2/s) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (Upperf ) in summer | (0C) | Max. | 30 |
Pour point (Upperf ) in Winter | (0C) | Max. | 30 |
Carbon residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurc | (% m/m) | – | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
mg/kg | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphided | (mg/kg) | Max. | 2.00 |
(Acid Numberc) | (mg/kg) | Max. | 2.5 |
RMG 180
Characteristic | Unit | Limit | RMG 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
CCAI | – | Max. | 870 |
Kinematic viscosity at 500 C | (mm2/sa) | Max. | 180 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperf ) in summer | (0C) | Max. | 30 |
Pour point (upperf ) in Winter | (0C) | Max. | 30 |
Carbon residue: Micro method | (% m/m) | Max. | 18.00 |
Ash | (% m/m) | Max. | 0.100 |
Water | (% V/V) | Max. | 0.50 |
Sulphurc | (% m/m) | Max. | statutory requirements |
Sodium | (mg/kg) | Max. | 100 |
Vanadium | (mg/kg) | Max. | 350 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (% m/m) | Max. | 60 |
Used lubricating oil (ULO) Calcium and Zinc, or Calcium and Phosphorous |
mg/kg | The fuel Shall be free from ULO. A fuel shall be considered to contain ULO when either one of the following conditions is met: Calcium> 30 and Zinc > 15; or Calcium> 30 and Phosphorus >15 |
|
Hydrogen Sulphided | (mg/kg) | Max. | 2.00 |
Acid Numbere | (mgKOH/g) | Max. | 2.5 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/s) | Min Max |
2.000 6.000 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperd ) in summer | (0C) | Max. | 0 |
Pour point (upperd ) in summer | (0C) | Max. | -6 |
Hydrogen Sulphide | (mg/kg) | Max. | 2.00 |
Cloud Point | (OC) | Max. | – |
Sulphurb | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue |
(% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.010 |
Total sediment by hot filtration | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Lubricity, corrected wear scar diameter (wsd 1,4) at 60O Ch |
µm | Max. | 520 |
Oxidation Stability | (g/m3) | Max. | 25 |
Appearance | Clear and Bright |
RMG 380
Characteristic | Unit | Limit | RMG 380 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 380.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperb ) in summer | (0C) | Max. | 30 |
Pour point (upperb ) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 18 |
Ash | (% m/m) | Max. | 0.15 |
Water | (% V/V) | Max. | 0.5 |
Sulphurc | (% m/m) | Max. | statutory requirements |
Vanadium | (mg/kg) | Max. | 300 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 80 |
Used lubricating oil (ULO): Zinc Phosphorus Calcium |
(mg/kg) | Max. | The fuel shall be free from ULOd Zinc – 15 Phosphorus – 15 Calcium – 15 |
RME 180
Characteristic | Unit | Limit | RME 180 |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 991.0 |
Kinematic viscosity at 500C | (mm2/Sa) | Max. | 180.0 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperb ) in summer | (0C) | Max. | 30 |
Pour point (upperb ) in Winter | (0C) | Max. | 30 |
Carbon Residue: Micro method | (% m/m) | Max. | 15 |
Ash | (% m/m) | Max. | 0.10 |
Water | (% V/V) | Max. | 0.5 |
Sulphurc | % (m/m) | Max. | Statutory Requirements |
Vanadium | (mg/kg) | Max. | 200 |
Total sediment aged | (% m/m) | Max. | 0.10 |
Aluminium plus Silicon | (mg/kg) | Max. | 80 |
Used lubricating oil (ULO): Zinc Phosphorus Calcium |
(mg/kg) | Max. | The fuel shall be free from ULOd Zinc – 15 Phosphorus – 15 Calcium – 15 |
DMA
Characteristic | Unit | Limit | DMA |
---|---|---|---|
Density at 150C | (kg/m3) | Max. | 890.0 |
Kinematic Viscosity at 400C | (mm2/Sb) | Min Max |
1.50 6.00 |
Flash Point | (0C) | Min. | 60.0 |
Pour point (upperc ) in summer | (0C) | Max. | 0 |
Pour point (upperc ) in Winter | (0C) | Max. | -6 |
Cloud Point | (OC) | Max. | – |
Sulphur | (% m/m) | Max. | Statutory Requirements |
Cetane Index | – | Min. | 40 |
Carbon residue on 10% Volume distillation residue |
(% m/m) | Max. | 0.30 |
Carbon residue: Micro Method | (% m/m) | Max. | – |
Ash | (% m/m) | Max. | 0.01 |
Total sediment, Existent | (% m/m) | Max. | – |
Water | (% V/V) | Max. | – |
Acid Number | (mgKOH/g) | Max. | 0.5 |
Appearancef | (mgKOH/g) | Max. | Clear and bright |
Vanadium | (mg/kg) | Max. | – |
Aluminium plus Silicon | (Mg/kg) | Max. | – |
Used lubricating oil (ULO): Zinc Phosphorus Calcium |
(Mg/kg) | Max. | – – – – |