The Rheology Modifiers Oilfield -specialized Zhejiang Camp-Shinning New Material CO.,LTD. and Hangzhou Camp-Shinning CO.,LTD. are subsidiaries of Camp-Shinning.
Camp-shinning concentrated on high value-added, high-technology organo bentonite series products, particularly in research, development, manufacturing, and sales of organic (solvent based organoclay) and inorganic bentonite (water based organoclay).
Our Organophilic bentonite clay finds widespread application in oil drilling mud, paint, coating, lubricating grease, adhesive, construction mortar, cosmetics, and waste water treatment, among other applications. A group of world-class professional users and distributors, such as SUN CHEMICAL,,SIEGWERK,LEHMANN &VOsS, and others, have acknowledged our dependable quality.
Current annual production of organic bentonite clay | organoclay is 20,000 metric tons, while refined bentonite production is 15,000 metric tons.
Our ISO 9001 quality system certification and IS014001 environmental management system certification, as well as our own mine with superior ore quality and production of proprietary technology, ensure the long-term quality and supply stability of our Organoclay bentonite | Organophilic clay.
Our mission is to provide users with superior Organoclay bentonite | Organophilic clay and services and to collaborate with them to achieve success and glory.
Internet address: https://www.rheologymodifiers.com/ and email address: email@example.com
Whatsapp / Wechat: +86-13185071071
Organoclay | Organophilic Clay CP-2 also named amine treated Bentonite. Rheology Modifiers Oilfield
In diesel oil based fluids,organophilic clay viscosifier CP-2 are used to increase carrying capacity and suspension properties, providing support for weight materials and improved cutting removal. Organophilic bentonite also aids in filter-cake formation and filtration control.
Composition Organically modified bentonite clay
Physical appearance Off white to tan free-flowing powder
Moisture content (105℃,2hr) ≤4%
Particle size (<76μm or 200mesh) ≥95%
Specific Gravity 1.6-1.8
Effective viscosifier and gellant
Aids control of fluid loss to the formation
Increases emulsion stability
Improves cuttings carrying and hole cleaning capacity
Suspends weighting materials and other solids
Confers temperature stability to the fluid
Viscosifying drilling Fluids:
Oil based drilling fluids
Invert emulsion fluids
Organoclay | Organophilic Clay CP-2 is packed in 50lb(22.7kg) or 25kg/bag or customized,multi-wall paper sacks or Kraft paper bag with PE liner or customized.
CP-2 Store in a dry, well-ventilated area with temperature of 0℃-30℃. Keep container closed. The quality guarantee period is 24 months.
The information on use is based on data which are believed reliable, but any recommendation or suggestion made is without guarantee or warranty, since the conditions of use are outside our control. All products are sold on the conditions that purchasers shall make their own tests to determine the suitability of such products for their purpose and that all risks are assumed by user. We disclaim any responsibility for damages resulting from careless or improper handling or use. Nothing herein is to be taken as permission, inducement or recommendation to practice any patented invention without a license.
Internet address: https://www.rheologicaladditive.com/ and email address: firstname.lastname@example.org
Whatsapp / Wechat: +86-13185071071
Rheology Modifiers Oilfield
The rheological behavior of oilfield fluids is crucial for well construction and drilling operations. Several types of rheology modifiers exist. Low-end, high-temperature, and polymeric rheology modifiers are included. This can be classified based on its chemical structure.
Rheology Modifiers Oilfield
The rheology of oilfields is one of the most crucial parts of oil drilling, and low-end rheology modifiers can help enhance drilling fluids. The purpose of these additions is to improve low-shear rheology and reduce interfacial tension. When the annular velocity of a drilling fluid is low but its density is high, they are very useful.
Invert emulsion drilling fluids can be made more stable with the aid of low-end rheology modifiers.
Additionally, they are good for cleaning holes and deviated wells. They are extremely stable at high temperatures and can be employed in a broad range of oil-to-water ratios.
Polymeric rheology modifiers constitute a novel family of synthetic polymers with exceptional rheological properties.
With these additions, polymer-based drilling fluids exhibit enhanced thermal stability and salt resistance. Moreover, they increase the viscosity of the drilling fluid.
Low-end rheology modifiers may increase the hole cleaning capability of the drilling fluid and the barite sag resistance.
They can be integrated into standard drilling fluids based on oil. These additives can assist in optimizing drilling fluids for increased output.
Modifiers of low-end rheology produce a more consistent viscosity under varying situations.
The additives retain the drilling fluid’s ability to clean holes, eliminate pipe clogging, and prevent cutting beds. In addition, they aid in minimizing the amount of clay in drilling fluids and the creation of progressive gels.
Additionally, these additives minimize fluid loss to the substrate.
Developing low-end rheology modifiers for the oil industry can enhance the performance of drilling fluids.Rheology Modifiers Oilfield for drilling.
By boosting low-shear-rate rheology, barite suspension, and annular velocity, they improve the performance of drilling fluids. These additives can also increase the wellbore’s carrying capacity and avoid barite sagging by decreasing the water content and enhancing rheological characteristics.
Rheology Modifiers Oilfield | High-pressure and high-temperature rheology modifier
The rheological properties of oilfield fluids are crucial because they influence wellbore construction and drilling operations. In these procedures, several rheology modifiers are utilized to modify the fluid behavior.
The temperature and content of drilling fluids affect their rheological qualities. Fluids used in high-temperature, high-pressure drilling have distinct rheological properties. Consequently, they exhibit a range of viscosities and emulsion stability.
The effects of high temperature and high pressure on the rheology of a fluid are largely independent of one another.
However, a well with a limited difference between pore and fracture pressure must be evaluated with care. This chapter explains how temperature and pressure affect the rheological parameters of common HPHT wells.
Additionally, rheology modifiers can be utilized to improve the stability of drilling fluids. Among all evaluated rheology modifiers, CP-992 was determined to have the maximum electrical stability. The combination of rheology modifier, barite, and oil wetter enhanced the stability of the emulsion.
Silicon oil is another form of high-temperature, high-pressure rheology modifiers used in the oil industry. This addition can enhance the performance of drilling fluids in high-temperature, high-pressure situations because to its high rheology.
The improved rheological behavior of oilfield drilling fluids will increase drilling efficiency and safety.
To improve the performance of water-based HTHP drilling fluids, synthetic polymers have been created as high-performance rheology modifiers and viscosifiers. One such polymer candidate has showed excellent viscosifying and temperature stability, as well as excellent salt resistance.
There are several applications for Rheology Modifiers Oilfield, ranging from oil and gas fluids to cosmetics.
They have superior Rheology Modifiers Oilfield and are compatible with the majority of surfactant compositions. Additionally, they offer outstanding clarity in low pH situations.