Maximize your reservoir with LWD solutions
To yield the most value out of your reservoir while drilling in some of the most complex and harsh environments, you need reliable insights. Pamir’s Logging-while-drilling (LWD) solutions deliver real-time wireline quality petrophysical data to help you confidently position wells in the most productive zones, even under the most demanding conditions.
Pamir's LWD systems offer superior formation evaluation data to maximize reservoir value while drilling. LWD sensors deliver wireline quality petrophysical data and address directional drilling, formation evaluation, and geosteering applications. Our tools will help you gather reservoir information, enhance drilling performance, and optimize well placement.
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Pamir’s rugged LWD systems are built to withstand high temperatures and high vibration while providing the most comprehensive data, backed by 24/7 support. Conduct evaluations of formations, boreholes, and near-borehole environments for superior visibility of your reservoir. Accurate nuclear, porosity, formation pressure, and acoustic measurements can ultimately help you improve drilling performance throughout the lifecycle of your wells.
Gain critical insight to boost production of your reservoir, increase penetration rates, and reduce operational risks and cost. Predictive models and evaluation analysis give you greater visibility of your reservoir to meet the challenges of complex drilling environments while reducing the need for costly calibration damage or repairs.
Our logging-while-drilling services (LWD) have a variety of advantages including:
- Improved well performance
- Increased speed and precision
- Reduced operational risk
- Lower total cost of ownership
- Greater control of your environment
- More flexibility with an extensive range of equipment, tools, and services
LWD systems offer superior formation evaluation data to maximize reservoir value while drilling. LWD sensors deliver wireline quality petrophysical data and address directional drilling, formation evaluation, and geosteering applications. Our tools will help you gather reservoir information, enhance drilling performance, and optimize well placement.
Gamma services are probe-based or collar-mounted with our MWD service. Gamma-ray sensors detect lithology changes.
Resistivity services are offered through our PeNavi system, delivering comprehensive evaluation of formation and near-bore environments.
Our LithoNavi system offers accurate nuclear measurements and formation-density images. Real-time azimuthally sectored bulk density and neutron-porosity measurements are designed for integration within rotary steerable drilling systems.
Magnetic resonance services
Magnetic resonance services offer a lithology-independent porosity measurement while drilling through our MagNavi system, quantifying fluids occupying pore space into fractions that contribute to production and fractions that do not. MagTrak measurements aren’t affected by formation, borehole, or near-borehole environment. Except for hydrocarbon effect, environmental corrections are not required.
Formation pressures services
Formation pressures services offer real-time measurements of formation pressure while drilling. Our TesNavi system determines reservoir fluids mobility, optimizing the acquisition period and minimizing the total time required to accurately measure formation pressure. This minimizes NPT.
Imaging services offer high-resolution images for geological and structural classification, sedimentary analysis, and steering. The AziNavi system, LithoTrak system, PeNavi system, and StarNavi system improve imaging for reduced drilling risk.
Acoustic service is offered via SoundNavi technology, which integrates advanced downhole acoustic technology into our existing modular tool design and runs with many formation evaluation service levels.
Reservoir Navigation Services
Our Reservoir Navigation Services use real-time LWD formation evaluation sensors with directional data and formation models to properly target your drilling assembly. This ensures optimal entry to maintain the wellbore in the zone of maximum interest, predicting and avoiding reservoir exit. Azimuthal imaging also is available.