MOQ: 10,000 Barrels per Month
Supply Ability: 1,000,000 Barrels per Month
JP54 Technical Specifications:
ADDITIVES
Antioxidant in hydro processed fuel mg/l min 17 max 24 Antioxidant non hydro processed fuel mg/l max 24 Static dissipater first doping ASA- 3 mg/l max 1 Stadis 450 mg/l max 3
COMBUSTION PROPERTIES
Specific energy, net mi/kg min 18.4 D 4808 Smoke point mm min 19 D 1322 Lumininomitter number min 45 D 1740 Naphtales % vol max 3 D 1840 Propriety unit min max result test ip method ASTM
COMPOSITION
Total acidity mg KOH /g max 0.01 354 D 3242 Aromatic % vol max 22.0 158 D 1318 Sulphur, total % mass max 0.30 107 D 1266/2622 Sulphur mercaptan % mass max 0.003 342 D 3227 Doctor test 30 D 4952
VOLATILITY
Initial boiling point centigrade max report 123 D 96
10% vol at C 240
20% vol at C report
50% vol at C report
80% vol at C report
End point centigrade max 42 170/303 D 56 / 3828 Density at 15 C kg m2 min /max 776/840 180/385 D 1298
LOW TEMPERATURES PROPERTIES
freezing point centigrade max 40 15 D 1298
Corrosion copper (2hrs at 100 C)
Corrosion silver (4 hrs at 500C) max 1 227
STABILITY
Thermal stability control temp. 280C 323
Filter pressure, differential mm. Hg max 25
Tube deposit rating (visual) max <3
CONTAMINATION
Existent gum mg/100 ml max 7 131 D 361 Water reaction, interface rating max 16 258 D 1084 Fuel whit static dissipater additives min 75 D 3648 Fuel without static dissipater additives min 85
As an important additive, micronized wax has an irreplaceable role in the field of ink coatings. It can significantly improve the surface properties of ink coatings, enhance scratch resistance, abrasion resistance, anti-adhesion, as well as improve the feel and control the gloss. In addition, the micronized wax can prevent pigment settling and cooperate with matte powder to produce matte paint.
There is a wide range of micronized waxes, mainly including Fischer-Tropsch waxes, polyethylene waxes, polypropylene waxes, polytetrafluoroethylene waxes and modified micronized waxes. Among them, Fischer-Tropsch wax is a kind of unbranched linear wax with low melting point and excellent smoothness and dispersibility; polyethylene wax has excellent anti-friction, anti-scratch, anti-adhesion and light retention; polypropylene wax has higher softening point and hardness, and has outstanding anti-adhesion and abrasion resistance; polytetrafluoroethylene wax has a high melting point, high density, and has excellent comprehensive performance, but is difficult to be dispersed and has a higher price; and modified micronized wax combines many advantages by modifying other waxes through a specific process. Modified micronized waxes combine the advantages of other waxes through a specific process.
*_FOB_*
- SPOT loading port at BATUMI port Georgia. Both Party sign sales and purchase contract for extension of trade CIF DLC for remaining 11 months.
*_FOB_*
- SPOT loading port at BATUMI port Georgia. Both Party sign sales and purchase contract for extension of trade CIF DLC for remaining 11 months.
On boarding process:
Corporate profile, CIS or KYC must be submitted to receive the name of the seller to create the
ICPO.
Commission is included and paid by the seller.
The buyer submitting must have their own VOPAK account. No JVs are allowed for VOPAK
account accesses. The refinery will look up the name on the ICPO and have VOPAK reach out
directly. If the company name on the ICPO does not have a VOPAK account, it will be rejected
and potentially blacklisted by VOPAK.
Procedures
VOPAK to VOPAK Procedures
1. Buyer issues ICPO with their full details and Seller issues commercial invoice to buyer for signing.
2.Buyer signed a commercial invoice and send it back to the seller.
3.Buyer and Seller signed agreement with VOPAK.
4.After the agreement, the seller scheduled a date for the dip test.
5.Buyer conducts Vopak for dip Test.
6.Seller issue title transfer of ownership to buyer and seller starts injecting product to buyer tank.
7.After completion of the injecting product into the buyer tank, buyer pays to seller provided
account or wallet and seller releases all documents to buyer. (KZ origin docs)
Product Availability
Aviation Kerosene Colonial Grade Al (Jet Al Fuel)
Houston Available January 20th
, 2025
Initial Lift 5,000,000 Barrels Jet A1 Rotterdam | Price: Gross Platt 7 | Net Platt 5
Contract up to 10,000,000 Barrels Jet A1 | Monthly x 12 Months | Pricing: Negotiable
Rotterdam Available January 20th
, 2025
Initial Lift 5,000,000 Barrels Jet A1 Rotterdam | Price: Gross Platt 7 | Net Platt 5
Contract up to 10,000,000 Barrels Jet A1 | Pricing: Negotiable
1
UltraLow Sulphur Diesel En590 10 ppm
Rotterdam Available January 20th
, 2025
Initial Lift 200,000 MT En590 Rotterdam | Price: Gross NWE Platt 40 | Net NWE Platt 35
Contract up to 1,000,000 MT/ Monthly x 12 Months | Pricing: Negotiable
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
The application of micronized wax in ink is mainly reflected in the following aspects: Improvement of scratch resistance and abrasion resistance: micronized wax can enhance the scratch resistance and abrasion resistance of ink, so that the ink is not easy to be scratched or abraded in the printing process.
Improve the handfeel: micronized wax can improve the slipperiness of the ink and make the print feel smoother.
Controlling glossiness: micronized wax can adjust the glossiness of ink to meet different printing needs.
Prevent pigment from settling: micronized wax can prevent pigment from settling in the ink and ensure the color consistency of the printed matter.
The application of micronized waxes in coatings is also important:
Improvement of scuffing resistance: Micronized waxes can enhance the scuffing resistance of coatings and make the coating surface more durable.
Anti-adhesion: Micronized waxes have anti-adhesion properties, which make the coating surface less likely to adhere to other substances.
Adjustment of leveling: Micronized waxes improve the leveling of coatings and make them smoother during application.
Enhance hardness: by adding micronized wax, the hardness of the coating can be improved, making it more wear-resistant.
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