Swordfish Chemicals

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CASE STUDIES

Case Study: Oil Sweet OS-1000

OS-1000 Removes High Level H2S from West Texas Crude

  • Oil Sweet OS-1000 was tested at Intertek Lab in Cushing OK.
  • H2S was measured using UOP163 method and a modified ASTM D-5705 method to determine H2S in vapor space, dosing was done based off vapor space test results.
  • Oil Sweet OS-1000 removed all of the H2S after one dosing.

Pre Treat H2S 
4% or 40K PPM

Post Treat H2S 
0 PPM

Economic Benefit: Transformative Acidic Gas Mitigation

In addressing the prevalent issue of acidic gas in natural and crude oil resources, our breakthrough technology, Oil Sweet OS-1000, delivers substantial economic benefits. By transforming troublesome crude into high-purity oil, our product not only enhances the quality of the final output but also mitigates operational challenges associated with amine-based treatments. This optimization results in increased operational efficiency, reduced downtime due to equipment failures, and a notable boost in revenue. Clients leveraging Oil Sweet OS-1000 experience a significant return on investment, unlocking a new standard of economic viability in the oil and gas industry.

Case Study: Gas Sweet GS-3000

Present Field Application

Application: 40% Triazine

Gas Process Rate: 6.5 Million cubic feet per day

H2S Content: wells range from 500 to 700 PPM H2S Problems: High Triazine consumption and solids build up.

System Design: Two chemical pump set up. #1 pump set up to run continuously and #2 pump set to kick on when H2S outlet hits 4 PPM.

Dosage: Triazine was using 900 to 1,000 gallons per day.

The treating vessel was thoroughly cleaned and loaded with 4,500gal of GS-3000. The #1 pump was set at a rate of 900 gal/day and the #2 pump was set to kick on when the gas outlet reached 2 PPM H2S. After 48hrs of successfully treating the H2S the pump rate was reduced to 800gal/day and by day five chemical consumption was down to 704 gal/day.

Economic Benefit: H2S Mitigation Redefined with Gas Sweet GS-3000

In the gas market, where H2S contamination poses revenue losses, equipment corrosion, and safety risks, our innovative solution, Gas Sweet GS-3000, redefines economic viability. With the ability to effectively treat gas with H2S as high as 250,000 PPM, our proprietary scavengers offer unparalleled contamination control. The local sourcing and blending of chemicals in the USA ensure a stable and efficient supply chain, eliminating the risk of disruptions and associated economic losses. Additionally, the chemistry’s corrosion-free nature prevents expensive remediation or repairs, saving clients substantial costs. Through consistent pricing, sustainable disposal, and competitive rates compared to industry standards like Triazine, Gas Sweet GS-3000 not only resolves critical challenges but also enhances the overall economic value of the final gas product.

Conclusion

The treating vessel was thoroughly cleaned and loaded with 4,500gal of GS-3000. The #1 pump was set at a rate of 900 gal/day and the #2 pump was set to kick on when the gas outlet reached 2 PPM H2S. After 48hrs of successfully treating the H2S the pump rate was reduced to 800gal/day and by day five chemical consumption was down to 704 gal/day.

Conclusion

The treating vessel was thoroughly cleaned and loaded with 4,500gal of GS-3000. The #1 pump was set at a rate of 900 gal/day and the #2 pump was set to kick on when the gas outlet reached 2 PPM H2S. After 48hrs of successfully treating the H2S the pump rate was reduced to 800gal/day and by day five chemical consumption was down to 704 gal/day.

We field tested the chemistry with a Fortune 500 company in Louisiana against a 40% MEA Triazine using an atmospheric bubble tube procedure on 4 different wells. Our product, Gas Sweet 3000, repeatedly out performed Triazine by 20-40%. After conclusive positive results on all 4 streams we replaced Triazine with GS 3000 on one well at a time.