Diesel-based drilling mud organoclay
Diesel-based drilling mud organoclay – Camp-Shinning rheology modifier for diesel OBM systems
Camp-Shinning organoclay offers rapid dispersion and strong gel strength for diesel-based drilling muds, ensuring reliable rheology and barite suspension under HPHT conditions.
Diesel-based OBM remains one of the most widely used drilling fluid systems due to its stability, lubricity and thermal tolerance.
Camp-Shinning’s organoclay is optimized for diesel solvency characteristics, delivering fast yield, uniform viscosity development and strong suspension in both dynamic and static conditions.
It strengthens invert emulsion stability, reduces barite sag and supports rheology consistency across temperature variations and long drilling intervals.
Diesel OBM formulations demand a viscosifier that activates quickly and provides predictable performance despite variable diesel aromatic content.
When engineers evaluate Camp-Shinning’s diesel-specific organoclay and observe its clean dispersion, strong gel structure and consistent rheology curves, interest rises immediately.
As operations reveal reduced sag, fewer mud treatments and improved wellbore stability, the desire to rely on Camp-Shinning increases. Reliable supply and competitive pricing make adoption straightforward.
🔹 FAQ – Diesel-based drilling mud organoclay
Q1: Why is special organoclay needed for diesel OBM?
Diesel solvency varies, so optimized surface modification ensures consistent swelling and yield.
Q2: Does it disperse quickly in low-aromatic diesel?
Yes—engineered specifically for rapid activation.
Q3: Does it support HPHT wells?
Yes—excellent thermal stability.
Q4: Does it improve barite suspension?
Significantly—reduces sag in static and dynamic states.
Q5: Is it compatible with standard emulsifier packages?
Yes—fully compatible.
🔹 USP (Camp-Shinning) – Diesel-based drilling mud organoclay
Designed for diesel OBM formulations
Strong suspension + predictable viscosity
Fast dispersion even in low BTEX diesel
High-temperature rheology stability
Enhanced invert emulsion performance
Long-term supply capability