EFFECTIVE & ECONOMIC SURFACTANTS FOR IOR Oil Chem Technologies, Inc

EFFECTIVE & ECONOMIC SURFACTANTS FOR IOR Oil Chem Technologies, Inc
EFFECTIVE & ECONOMIC SURFACTANTS FOR IOR Oil Chem Technologies, Inc. Sugar Land, TX

WHAT COMES TO MIND WHEN THE PRODUCTION OF YOUR WELLS START TO DECLINE?

Primary Recovery Secondary Recovery Tertiary Recovery Thermal Gas Chemical

IOR BY CHEMICAL FLOOD Never really took off the ground for the past two decades: - Reasons? Sensitivity to oil price Large up-front investment Unpredictable return on investment

However, Extensive lab evaluations support the feasibility of chemical flooding Field data proves chemical flooding is an effective way to recover residual oil New chemicals and processes open the door for new opportunities

HOW TO REACH SUCCESS?

Select the proper project
Utilize the expertise of all involved Chemical optimization Cost efficiency Evaluate the lab results Select the best process Start the project

OIL CHEM TECHNOLOGIES WHAT MAKES US DIFFERENT…...
State-of-the-art IOR surfactants Many years of research & industrial experience Field proven products Customized products for each project One process or product doesn’t fit all

PRESENTATION OUTLINE Why do we need surfactant ASP LASP
Super Surfactant New products & new ideas IOR by adsorption-desorption IOR by recycling effluent Smart Surfactant Scaling up New arylalkyl sulfonate

RELATIONSHIP BETWEEN CAPILLARY NUMBER AND OIL RECOVERY
Nc = Capillary Number  = Darcy Velocity µ = Viscosity  = Interfacial Tension Chatzis and Morrow, SPEJ, (1994) 561.

Super Surfactant New products & new ideas IOR by adsorption-desorption IOR by recycling effluent Smart Surfactant Scaling Up New arylalkyl sulfonate

ASP SURFACTANTS ORS & ORS-HF SERIES

ADVANTAGES Field Proven Consistent quality Low concentration required
One component system Low viscosity

SHO-VEL-TUM FIELD On production > 40 yrs, extensive water flood, produced 4 bbl/day ASP started on 2/98, using Na2CO3 and ORS-62 Total incremental oil > 10,444 bbl in 1.3 years SPE 84904

OIL SATURATION AFTER ASP INJECTION
SPE 84904

INJECTED, ON-GOING & APPROVED PROJECTS
ORS-41 ORS-62 ORS-97 ORS-46HF ORS-41HF ORS-57HF SS-7593 ORS-62HF(2) SS-B6688 INJECTED, ON-GOING & APPROVED PROJECTS

SELECTED REFERENCES USING ORS SURFACTANTS
SPE 84904, 84075, 71491, 57288, 49018, 36748 Hart’s Petroleum Engineering International, Dec DOE/PC/ (OSTI ID: 3994)

LOW ALKALI SURFACTANT POLYMER FLOOD (LASP)

ASP - POTENTIAL PROBLEMS?
After extensive ASP flood in China, results were successful, however: Alkali causes corrosion of the equipment Scale forms in the formation Produced wells plugged and require fracturing treatment to produce oil again Alkali is detrimental to polymer viscosity Extra polymer, NaOH and maintenance costs SPE 71492, 71061

ASP LASP Combines the advantages of ASP and SP Use 0.1 – 0.6% alkali
Reduces surfactant adsorption Reduces polymer degradation Reduce the maintenance cost Reduce the scale formation Reduces the total cost of the treatment

ASP vs. LASP Common ASP: 0. 1% surf. / 1. 0% NaOH Common LASP: 0
ASP vs. LASP Common ASP: 0.1% surf. / 1.0% NaOH Common LASP: 0.1% surf. / 0.2% NaOH ASP LASP AS, $ / bbl $0.63 $0.29 Polymer Cost Due to NaOH $$$ $ Equipment Corrosion Scale Formation

LASP - IFT vs. % NaOH 0.1% ORS-62HF, TDS ~ 3,500 ppm, API Gravity ~ 40, Temp ~ 40 C,

SUPER SURFACTANTS SS Series

ADVANTAGES Super Effective Super Convenient
Ultra-Low concentration required (0.02% - 0.2%) Provides ultra-low IFT Super Convenient No alkali is required No water treatment is required

ADVANTAGES - Continued
Super Tolerant High TDS brine High divalent cations High temperatures

ADVANTAGES - Continued
Super Savings Surfactant Alkali Polymer Water treatment Sludge disposal Surface equipment Potential scale formation Equipment maintenance

SS IN HIGH SALINITY BRINE TDS ~190,000ppm, Ca, Mg ~ 95,000 ppm Temp
SS IN HIGH SALINITY BRINE TDS ~190,000ppm, Ca, Mg ~ 95,000 ppm Temp. ~ 50 C, API Gravity ~ 35

SS IN HIGH TEMP. HEAVY CRUDE TDS ~ 250 PPM, TEMP
SS IN HIGH TEMP. HEAVY CRUDE TDS ~ 250 PPM, TEMP.~ 100 C, API GRAVITY ~15

SELECTED REFERENCES USING SS SURFACTANTS
SPE – SPE IOR Meeting, April, 2002 SPE – SPE Oil Field Chemistry Meeting, Feb., 2003

ON-GOING LAB EVALUATION STAGE PROJECTS

IOR BY SURFACTANT ADSORPTION-DESORPTION
Surfactant lost through adsorption Changes disadvantage to advantage Desorbing the adsorbed surfactant Reduce IFT Recovers additional oil J.Pet. Sci. & Eng. 2004

IOR BY SURFACTANT ADSORPTION-DESORPTION
w A/S A/S/W A/S/A J.Pet. Sci. & Eng. 2004

IOR BY RECYCLING ASP EFFLUENT
Residual surfactant, polymer, alkali present in the effluent Process identifies chemicals in effluent and recycles back to reservoir Savings on chemical costs Savings on disposal & treatment costs Recovers additional oil over ASP SPE 84075

IOR BY RECYCLING ASP EFFLUENT 0. 15% ORS-62HF, 1
IOR BY RECYCLING ASP EFFLUENT % ORS-62HF, 1.0% NaOH, 1000 PPM polymer SPE 84075

SMART SURFACTANT One component system
Provides low IFT and proper viscosity Salt and divalent cation tolerant No water treatment required No polymer required No dissolving or hydration unit required Minimal up-front investment Minimal risk factor US Patent Pending

WATER FLOOD Injector Producer

SURFACTANT FLOOD

SURFACTANT FLOOD Injector Producer

SMART SURFACTANT

SMART SURFACTANT Injector Producer

SMART SURFACTANT™ Injector Producer

35000 TDS, 1700 Ca/Mg 0.1% surfactant 0.6% smart surfactant

Super Surfactant New products & new ideas IOR by adsorption-desorption IOR by recycling effluent Smart Surfactant Scaling up

ENLARGED FIELD FLOOD Raw material supply Manufacturing Location
Source Availability Manufacturing Location Shipping, tax, etc. Improve local economy Capital investment Up-front investment Operational cost By-products Flexibility of the plant

NEW ARYL ALKYL SULFONIC ACID (AASA)
US PATENT NO. 6,043,391

ADVANTAGES OF NEW AASA Abundant raw material supply
Can be made in large volume at desired MW One-step alkylation/sulfonation Tenside Surf. Det. 41 (2004) 31-33

Can be made in large volume at desired MW One-step alkylation/sulfonation No costly alkylation unit required Tenside Surf. Det. 41 (2004) 31-33

CONVENTIONAL VS. NEW PROCESS
Olefin + Aromatic Alkylate Alkylate + SO AASA New Olefin + SO Olefin Sulfonic Acid Olefin Sulfonic Acid + Aromatic AASA J. Surf. & Deterg. 5 (1)

CONVENTIONAL VS. NEW PROCESS (80,000 MT/Yr)
Equipment CONVENTIONAL PROCESS NEW PROCESS Alkylation Unit $75 – 80 million* Sulfonation Unit $16 million Neutralization Unit $2 Million * Handbook of Petroleum Refining Process (1996) p 1.62

Can be made in large volume at desired MW One-step alkylation/sulfonation No costly alkylation unit required More electrolyte tolerant than conventional alkylaryl sulfonates Tenside Surf. Det. 41 (2004) 31-33

Need Recommendations for surfactants ?
SS-7593 Total Bill = $ 0.00 To: Oil Chem Technologies

OIL CHEM TECHNOLOGIES We care about our customers
Your success is our success OCT

Oil Chem Technologies, Inc.
THANK YOU ! Oil Chem Technologies, Inc. 13013 Jess Pirtle Blvd. Sugar Land, TX 77478

EFFECTIVE & ECONOMIC SURFACTANTS FOR IOR Oil Chem Technologies, Inc

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