HP/HT Dynamic Linear Swell Meter – M4600Height: 12 in.
Width: 4.5 in.
Depth: 5 in.
Weight: 55 lbs.
Max Pressure: 2,000 psi | Max Temp: 500°F
US Patents: 8,434,355 and 8,443,661
China Patent: 102384966 A
M4600 HP/HT Linear Swell Meter Features:
The M4600 is engineered for HPHT laboratory testing of solids and fluids interactions:
- PC interface
- Digital data
- Sturdy
- Easy to operate
- Safe operation
- HPHT
- Test flexibility
- Repeatable results
- Low maintenance
- Automatic data collection
- Includes M4600daq software, which connects the M4600 with a Windows®-based PC (required for M4600 operation)
- Tests are simple to set up and run
- Customizable charts and real-time data are displayed during tests
- Data can be instantly exported into Microsoft Excel
Automatic Core Flow Tester – M9100Height: 28 in.
Width: 70 in.
Depth: 26 in.
Weight: 250 lbs.
Core Dimensions: 1″ to 1.5″ diam by 6″ to 24″ length
The 9000 series products are all customizable.
M9100 Automatic Core Flow Tester Operational Features:
- Optional automatic gas porosity and permeability measurement
- Optional automatic core loading
- Optional heating band or convection oven temperature control
- Optional fluid pre-heating prior to contact with the core sample
- Optional slim tube system
- Optional resistivity & ultrasonic measurement
Core Porosimeter – M9140Height: 12 in.
Width: 16 in.
Depth: 12 in.
Weight: 30 lbs.
N/He: 200 psi min. | Core Diameter: up to 1.5″
M9140 Operational Features:
- Air relief valve prevents over pressurization
- Calibration block included in the package
- Digital display of pressure and temperature
- Calculation spreadsheet included
- Compact size and easy to maintain
- Precision regulator and gauge for accurate pressure control
- Precise pressure transducer provides accurate pressure measurement
- Vacuum pump is optional for the evacuation of the core sample
HP/HT Foam Loop Rheometer – M9200Height: 26 in.
Width: 28 in.
Depth: 70 in.
Weight: 250 lbs.
The 9000 series products are all customizable.
Highest pressure and temperature rating of any foam rheometer in the world
Today’s researchers must come to grips with some of the harshest environments on earth, and the M9200 HPHT Foam Rheometer hardware is intended to address their needs by providing a test environment that is more robust and realistic than any competing instrument available today can provide.
M9200 provides dynamic foam circulation condition instead of static condition, which results in foam separation. This unique feature of M9200 enables foam to be constantly circulated and sheared in the loop for achieving uniform foam properties during testing.
The integrated heat trace maintains a uniform temperature on all sample lines, further ensuring accurate test results.
The Grace Instrument M9200 HPHT Foam Rheometer is designed to simulate foam fracturing and acidizing processes under down hole conditions of temperature and pressure, while providing comprehensive data collection, including power law n’ and k’ values for future modeling. The M9200 computer-controlled automation package allows precise monitoring and variable flow-rate control.
Dual Foam Loop & Core Flow – M9300Height: Customisable
Width: Customisable
Depth: Customizable
Weight: Customizable
The 9000 series products are made to customer’s requirements.
The only integrated foam loop/core flow tester on the market today
The Grace Instrument M9300 Foam Loop & Core Flow Tester combines the operation of a foam loop system with a formation damage evaluation system. It can measure permability changes to a formation core in a high temperature and high pressure environment, after injecting the formation core with fluids, such as various foams, fracturing fluids, drilling muds, completion fluids and acids.
The M9300 can be operated in one of three modes:
- Foam Generation & Foam Loop system can be used for foam creation, rheology and quality evaluation (bubble size distribution, half-life and density, etc.).
- Formation Damage (core flow) system can be used for core fluid treatments and permeability analysis.
- Combined Foam Loop & Formation Damage system is capable of measuring dynamic leakoff of foam, damage to the formation, well stimulation effects of foam, and rheology of foam in porous media.