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 MULTI-CHEM® DEVELOPS ADVANCED ROCKING CELL SYSTEM FOR TESTING OF HYDRATE INHIBITORS UNDER BOTH SWEET AND SOUR CONDITIONS

 
 Multi-Chem®, a global provider of oilfield production chemicals, has developed the first system of highly advanced rocking cells for testing low dosage hydrate inhibitors (LDHIs) that are designed to withstand hydrogen sulfide (H2S) gas, announced Vice President of Technology Danny Durham.
 The two six-cell modules are composed of the highly corrosion-resistant metal alloy HASTELLOY® so that LDHI testing can be conducted using H2S. The system is the first of its kind and offers deepwater, ultra deepwater and land-based operators the first opportunity to properly and safely simulate the conditions in a sour system without causing damage to the equipment.
The 12 test cells feature dual sapphire viewing windows and proximity sensors, and a center-ported configuration designed to eliminate the problems associated with more traditional end -ported designs, where hydrate formation can occur in the inlet tubing causing inaccurate results. This new design gives significantly more accurate pressure readings, essential to hydrate testing, while providing a relative viscosity measurement from the proximity sensors. Each individual cell window features ultra-bright rear-mounted lighting for clear viewing of the fluids.  
The system’s fully automated data acquisition and control software gives users the flexibility to pre-program various testing parameters and protocol changes, including the cells’ rocking angle and rocking rate. Two large monitoring screens help to track the conditions and progress of each individual cell during the test.
“The combination of the new design features, the data acquisition system and the quality of the materials used allows us to more accurately recreate the conditions of both sweet and sour systems as compared to other rocking cell designs,” said Zubin Patel, co-developer of the technology.
This technology was developed by Multi-Chem chemical and flow assurance experts Zubin Patel and James Russum.
Patel graduated cum laude with a Bachelor of Science degree in chemistry from Midwestern State University and a Ph.D. in synthetic organic chemistry from the University of Southern California. He has six years of experience in the production chemicals industry where he specializes in LDHIs and flow assurance technologies; chemical development, testing and recommendations; and testing analysis.
James Russum earned a Bachelor of Science degree in chemical engineering from Tennessee Technological University and a Ph.D. in chemical engineering with a minor in polymer chemistry from the Georgia Institute of Technology. Russum specializes in flow assurance, gas hydrates and hydrate control.

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The importance of effective treatments of frac fluids can't be understated. Understanding the water quality up front and implementing the right treatment program will save millions of dollars over the life of the well.

Water used to frac a well may come from a variety of sources, both good and bad. The scarcity of high quality water in many oil and gas fields necessitates the use of water containing high amounts of bacteria, solids, algae, and oxygen. Generally, the water is pretreated, but sometimes it isn’t enough. If the water isn’t sterilized, it can contaminate the reservoir, turning sweet production into sour, H2S laden production. Frac water may be incompatible with the reservoir (connate) water and cause severe scaling in the reservoir and production system. Pre-treating with a Multi-Chem FracSure program can save money over the life of the well by reducing operational problems that are associated with bacteria, H2S, scale and corrosion.

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Biocides / Biotechnology

Oxygen Scavengers

Scale Control Products



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