Downhole Fluid Identification

  

At last. Downhole fluid analysis with lab-quality results

Downhole Fluid Identification

Until now, downhole fluid analysis has been limited. Optical analyzers could tell you when your sample was pure enough to collect. Rarely could they tell you which fluid components were present and in what proportions. Understanding the fluid type, composition, and contamination is a critical part of formation testing. Our suite of sensors enables full characterization of the fluid  in your reservoir.

Bubblepoint and Compressibility

Determination of in-situ bubblepoint and compressibility at downhole condition enables you to optimize sampling, determine fluid contacts, and enhance understanding of fluid composition. Bubblepoint and compressibility is used for high-temperature fluid identification up to 450°F (232°C).

ICE Core® Fluid Analysis Service
The RDT Integrated Characterization Section (ICS) expands measurements of fluid composition downhole by using ICE Core® fluid analysis technology. Based on a multivariate optical computing technique, this enables high-resolution hydrocarbons composition to be measured.
Fluid Identification Section (FLID) - Best-in-class high-resolution density sensor.
Fluid density is the cornerstone of fluid identification and fluid contacts downhole. Our Reservoir Description Tool (RDT™) Fluid Identification Section (FLID) combines the best-in-class, high-resolution density sensor with co-located complementing sensors to accurately measure miscible and immiscible formation fluids.

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  TitleНазвание  DateДата
Summary Summary ICE Bibliographies
Bibliographies for ICE papers
Summary Summary Obtaining laboratory-quality fluid analysis downhole
In East Africa, an offshore, dry gas reservoir proved that Halliburton’s new ICE Core™ technology could provide lab-quality analysis downhole.
Summary Summary ICE Core® In-situ Downhole Fluid Analyses Enhances Reservoir Characterization
Consistent Sampling Increases Confidence For Field Development Decision Making
Summary Summary Perenco Uses New Workflow to Create Gains in Production and Locate New Zones Once Considered Uneconomical
Integrated Reservoir Evaluation Approach Combines MRIL® Service and RDT™ Tester
Summary Summary Halliburton saves time and money in deepwater southeast Asia
Two large-scale deepwater projects successfully launched using Halliburton’s advanced technology and top service delivery
Summary Summary Integrated Characterization Section D - HP
Reservoir Description Tool (RDT™) Formation Tester - HP
Summary Summary Integrated Characterization Section D
Reservoir Description Tool (RDT™) Formation Tester
Summary Summary Dual Probe Section
The advantage of the Dual-Port SPS is the increased flow area which enables faster flow rates and the ability to sample in very low-permeability environments.
Summary Summary Enhanced Dual-Probe Section (EPS) - HP
Reservoir Description Tool (RDT™) Formation Tester - HP
Summary Summary Enhanced Dual-Probe Section (EPS)
Reservoir Description Tool (RDT™) Formation Tester
Summary Summary ICE Core® Fluid Analysis Service
Downhole Fluid Analysis with Lab-Quality Results
Summary Summary RDT™ Formation Tester - HP - Gulf of Mexico
Data Sheet
Summary Summary Integrated Characterization Section A - HP - Gulf of Mexico
Data Sheet
Summary Summary Dual-Probe Section - HP - Gulf of Mexico
Data Sheet
Summary Summary Multi-Chamber Section
Multi-Chamber Section
Summary Summary Integrated Characterization Section B - HP - Gulf of Mexico
Data Sheet
Summary Summary Fluid-Identification Section - HP - Gulf of Mexico
Data Sheet
Summary Summary Integrated Characterization Section C - HP - Gulf of Mexico
HP Integrated Characterization Section-C
Summary Summary Multi-Chamber Section - HP - HP - Gulf of Mexico
Data Sheet
Summary Summary Flow Control Pump-out Section - HP - Gulf of Mexico
Data Sheet
Summary Summary Dual-Port-Straddle Packer High-Strength-HP - Gulf of Mexico
Data Sheet
Summary Summary Dual-Port Straddle Section - HP - Gulf of Mexico
Data Sheet
Summary Summary Bulk Chamber Section - HP - Gulf of Mexico
Data Sheet
Summary Summary Reservoir Description (RDT™) Service
When flexibility and versatility are required, the Halliburton Reservoir Description Tool (RDT™) tool collects—in a single deployment—formation pressure, fluid ID, and samples.
Summary Summary Reservoir Description Tool (RDT™) Formation Tester
When flexibility and versatility are required, the Halliburton Reservoir Description Tool (RDT™) tool collects—in a single deployment—formation pressure, fluid ID, and samples.
Summary Summary Fluid Identification Section
The Reservoir Description Tool (RDT™) Fluid-Identification Section (FLID) combines a best-in-class high-resolution density sensor with co-located complementing sensors to accurately measure miscible and immiscible formation fluids.
Summary Summary Integrated Characterization Section C
The Reservoir Description Tool (RDT™) Integrated Characterization Section (ICS) expands measurements of fluid composition downhole by using ICE Core® technology. Based on our unique multivariate optical computing technique, this enables high-resolution hydrocarbon compositional analysis.
Summary Summary Dual-Port Straddle Section
The advantage of the Dual-Port SPS is the increased flow area which enables faster flow rates and the ability to sample in very low-permeability environments.
Summary Summary Bulk Chamber Section
The RDT Bulk Sampling Section (CVS) is available in dual and single sample configuration to obtain zero shock or dump samples starting at 1 gal (3.8 L).
Summary Summary Integrated Characterization Section B
The Reservoir Description Tool (RDT™) Integrated Characterization Section (ICS) expands measurements of fluid composition downhole by using ICE Core® technology. Based on our unique multivariate optical computing technique, this enables high-resolution hydrocarbon compositional analysis.
Summary Summary Integrated Characterization Section A
The Reservoir Description Tool (RDT™) Integrated Characterization Section (ICS) expands measurements of fluid composition downhole by using ICE Core® technology. Based on our unique multivariate optical computing technique, this enables high-resolution hydrocarbon compositional analysis.
Summary Summary Quartz Gauge Section - HG
Quartz Gauge Section-HG
Summary Summary Flow Control Pump Out Section
The Reservior Description Tool (RDT™) Flow Control Pump Sections are proven to be the most versatile with a full range of differential pressures, the highest horsepower, and the fastest rates.
Summary Summary Dual-Port Straddle Packer–High Strength
The RDT Dual-Port Straddle Section uses controllable screen ports positioned at the top and the bottom of the annular interval
Summary Summary Quartz Gauge Section–HG - HP - Gulf of Mexico
Data Sheet
Summary Summary ICE Core® Fluid Analysis Service
The RDT Integrated Characterization Section (ICS) expands measurements of fluid composition downhole by using ICE Core® fluid analysis technology. Based on a multivariate optical computing technique, this enables high-resolution hydrocarbons composition to be measured.
Summary Summary Fluid Identification Section (FLID) - Best-in-class high-resolution density sensor.
Fluid density is the cornerstone of fluid identification and fluid contacts downhole. Our Reservoir Description Tool (RDT™) Fluid Identification Section (FLID) combines the best-in-class, high-resolution density sensor with co-located complementing sensors to accurately measure miscible and immiscible formation fluids.
Summary Summary Downhole Fluid Identification
Until now, downhole fluid analysis has been limited. Optical analyzers could tell you when your sample was pure enough to collect. Rarely could they tell you which fluid components were present and in what proportions. Understanding the fluid type, composition, and contamination is a critical part of formation testing. Our suite of sensors enables full characterization of the fluid in your reservoir.
Related Information

Related Information Дополнительная информация