Fiber Optic Gyro Well Survey System Wireless Borehole Trajectory Sensor
| Customization: | Available |
|---|---|
| Features: | High Precision |
| Power-off Data Protection: | Yes |
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Basic Info.
- Model NO.
- JTG-1
- Brand
- Gold
- Condition
- New
- Working Temerature
- -10°~+70°
- Max Pressure
- 50MPa
- Measuring Time
- 0.5s
- Power
- 16h
- Weight
- 7kg
- Water/Dustproof
- IP65
- Measurement Method
- Spot Measurement
- Size
- 40mm*1300mm
- Measuring Depth
- 2500m
- Azimuth Range
- 0°~360°±4°
- Inclinometr Range
- 0°~50°±0.1°
- Transport Package
- Wooden Case Package
- Specification
- CE, ISO
- Trademark
- Gold
- Origin
- China
- HS Code
- 9015800090
- Production Capacity
- 1000 Sets/Month
Product Description
Revolutionizing Underground Data Acquisition Through Advanced Photonic Technology
The contemporary challenges of subsurface exploration demand increasingly sophisticated solutions capable of delivering unprecedented measurement accuracy under physically demanding conditions. The GDY-2GW Wireless Inclinometer System represents a paradigm shift in downhole surveying technology, integrating fiber-optic gyroscopic sensors with advanced wireless telemetry to provide engineers with real-time borehole trajectory data. This system fundamentally transforms how drilling professionals approach wellbore positioning, offering sub-millidegree inclination precision and azimuthal accuracy unaffected by magnetic interference. The core technological advancement lies in the implementation of photonically-enhanced directional sensors that maintain calibration stability across extreme temperature gradients and mechanical vibration spectra.
Industrial applications span multiple sectors including geothermal energy development, hydrocarbon extraction, mineral prospecting, and geotechnical engineering. Each deployment scenario presents unique challenges that the system addresses through its modular architecture and adaptive algorithm processing. The operational philosophy centers on delivering actionable intelligence rather than raw data points, with embedded processing capabilities that transform sensor readings into directional recommendations and risk assessments. This approach has demonstrated measurable reductions in non-productive time across diverse drilling environments, particularly in situations involving steel casing installations, directional drilling operations, and complex geological formations.
Technical superiority manifests through multiple performance dimensions, beginning with the exceptionally robust housing that permits operation at depths exceeding 2,500 meters while maintaining consistent measurement integrity. The wireless communication protocol enables continuous data streaming to surface monitoring stations, eliminating traditional constraints associated with wired systems while providing enhanced diagnostic capabilities through embedded system health monitoring. Furthermore, the intelligent power management system optimizes energy consumption based on operational requirements, extending operational durations between maintenance cycles. These collective attributes establish a new benchmark for reliability in the downhole measurement sector.
Comprehensive Technical Specifications
| Performance Parameter | GDY-2GW Advanced Configuration | JTG-1 Standard Configuration |
|---|---|---|
| Inclination Measurement | 0°-50° ±0.1° resolution | 0°-45° ±0.1° accuracy |
| Azimuth Capability | 0°-360° ±4° precision | 0°-360° ±4° reliability |
| Maximum Operational Depth | 2,500 meters with data integrity | 2,000 meters certified |
| Temperature Operating Range | -10°C to 70°C continuous | -10°C to 70°C operational |
| Measurement Frequency | 140-second cycles with verification | 140-second standard intervals |
| Data Transmission | Encrypted wireless streaming | Secure data packet transmission |
| Sensor Technology | Fiber-optic gyro with AI compensation | Precision MEMS gyroscopic system |
| Power Requirements | AC220V ±10% with backup | AC220V ±10% standard |
| Environmental Protection | IP68 rated submersible | Humidity resistant (90% at 40°C) |
| Calibration Interval | 12-month operational cycle | 6-month recommended verification |
The innovative north-seeking methodology implemented within these systems eliminates traditional dependencies on magnetic reference points, instead utilizing earth rotational vector detection to establish true directional orientation. This technological approach proves particularly valuable in environments characterized by significant magnetic distortion, such as areas with cased wellbores, mineralized formations, or surface magnetic interference. The practical implications include enhanced well placement accuracy and reduced positional uncertainty, directly translating to improved reservoir recovery rates and optimized well construction economics.
Operational efficiency extends beyond mere measurement accuracy to encompass streamlined deployment protocols and intuitive user interfaces. The integration of cloud-based data management facilitates remote monitoring capabilities while maintaining enterprise-grade security protocols. Additionally, the modular component architecture allows for targeted upgrades and specialized configuration options tailored to specific application requirements. This flexibility ensures long-term viability as operational needs evolve, protecting capital investment through future-proof system scalability.
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