Oil Well Logging Equipment
geophysical well logging equipment plays a crucial role in the oil and gas exploration process, providing geoscientists and engineers with vital data that aids decision making. The equipment helps to increase the success rate of exploration programs, reduce drilling risk, and optimize production from oil reservoirs.
Well logging equipment is used in the oil and gas industry to measure and analyze various properties of rock formations and fluids in a wellbore. This information helps the industry professionals in making decisions about drilling and completion operations as well as helps determine the potential commercial viability of a well. Here are some ways in which the well logging equipment is used:
1. Evaluate formation properties: Well logging equipment uses various sensors and tools to measure the electrical, radioactive, and acoustic properties of the surrounding rocks, such as density, porosity, and permeability. This information helps geologists and reservoir engineers to understand the composition of the formations and to identify potential hydrocarbon zones.
2. Determine fluid properties: Well logging equipment also measures the properties of fluids such as oil, gas, and water that are present in the formation. It helps identify the type of fluids, their quantity, and their movement within the formation.
3. Characterize the wellbore: Well logging equipment is used to scan the wellbore and the casing to identify any obstructions, fractures or debris that may have occurred during drilling. This helps identify areas of potential production problems and optimize completion operations.
4. Monitor production: Well logging equipment is also used to monitor production rates and optimize production operations. It provides real-time data on the flow rates and properties of fluids being produced, helping control flow and pressure.
Overall, well logging equipment is an essential tool in the oil and gas industry, providing critical information for decision-making, and ensuring maximum production yield.
Technical Specification
Dip (inclination): | 0° -- 50° | Accuracy: | ±0.5° | |
Azimuth: | 0° -- 360° | Accuracy: | ±3°(typical @dip≥4°) | |
Resolution: | Azimuth:1° | Dip:0.1° | ||
Endurance: | About 6 hours (Using DC Power) | |||
Pressure: | 250 bar | |||
Dimensions: | Diameter Ø40 mm, Length 1230 mm, Weight 6 kg | |||
Storage: | 10 Projects with 99 shots each | |||
Temperature: | -10°C -- +60°C | |||
Power Supply: | 220V AC input or use internal DC battery |
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