GLOBAL INNOVATION LEADER
Completion Master pioneers intervention-less solutions to revolutionize well completion, delivering unmatched efficiency, productivity, and sustainability across global energy sectors
Since our incorporation in September 2022, we have been driven by a commitment to rigorous engineering and documented reliability, securing major contracts and qualifying products to the highest industry standards (API 19AC &11D1).
About Completion Master
Completion Master is a technology-focused company specializing in interventionless completion solutions. Our solutions provide a fully intervention-less completion system capable of eliminating wireline and Coil Tubing-dependent operations, automating segmental reservoir stimulation and flowback, and enhancing well performance in complex wellbore environments that: β’ Reduces operational time by eliminating multiple intervention runs. β’ Reduces overall well cost through simplified completion procedures. β’ Improves operational safety by removing surface equipment rig-ups. β’ Enhances productivity through cleaner reservoir inflow and optimized stimulation fluid placement. β’ Improves long-term recovery via controlled reservoir segment management.
Our Vision & Mission
Vision: To be the global benchmark for completion technology, creating autonomous solutions that eliminate manual intervention and human risk.
Mission: To innovate the way to complete wells FASTER, CHEAPER, and SAFER by providing disruptive, highly qualified downhole solutions.
Anwar Assal: CEO & Founder
Professional Bio
Anwar Assal is a seasoned energy-sector leader and technology innovator with nearly 30 years of global experience in well completions. As the Founder and CEO of Completion Master, Anwar spearheads breakthrough solutions that make well completion installation operations faster, cheaper, and safer, with a strong focus on offshore, subsea, deepwater environments, and complex wells geometry like horizontal and extended reach wellbores.
Across his career, Anwar has built a reputation for transforming operational challenges into high-value, practical innovations. Under his leadership, Completion Master has pioneered next-generation intervention-less completion technologies designed to eliminate slickline intervention, significantly reduce rig time and cost, enhance well control during deployment, and improve suspension integrity.
Anwar held senior regional and global leadership roles at Schlumberger and Baker Hughes. His responsibilities spanned multi-continent operations across North & Sub-Saharan Africa, the Middle East, Asia Pacific, Europe, Central Asia, Russia, and the Americas. He directed major deepwater projects, led multinational marketing and sales organizations, and drove strategic initiatives that reshaped market positions and expanded technology footprints.
Anwar is the named inventor on more than ten U.S. patents, including award-winning technologies in inflow control valves, intelligent completions, frac plug systems, and multilateral installation methods. His work has been recognized multiple times with Schlumbergerβs Patent Awards, as well as the Excellence in Sales Award. He is also a published SPE author and presenter, contributing to global industry conferences such as ADIPEC.
With deep expertise spanning reservoir-driven design, completions engineering, integrated solutions, product development, and global commercialization, Anwar continues to push the boundaries of what is possible in well completions. His vision remains clear: to deliver technologies that elevate operational efficiency, reduce HSE exposure, and shape a safer, more economical future for the energy industry.
Intervention-less Technology: Upper & Lower Completion
Upper Completion: ILCV
The Intervention-less Completion Valve (ILCV)
The ILCV is a highly engineered, multi-cycle valve that utilizes a hydraulic piston mandrel and an indexing mechanism to open and close the annulus to the tubing multiple times. This operation is performed without wireline or coiled tubing intervention, drastically reducing rig time and operational risk.
ILCV Key Functions:
Autofill: Ensures safe and efficient running of the completion string.
Kill Fluid Circulation: Allows necessary fluid circulation if required during the running process.
Pressure Testing: Enables pressure testing of the tubing at various intervals.
Well Suspension: Acts as a secure, downhole barrier for temporary well suspension.
Qualification: API 19AC & 11D1 Grade V3 & V0 Certified.
Lower Completion: ILFBV
The Intervention-less Flowback Valve (ILFBV)
The ILFBV is designed to work autonomously, typically alongside Autonomous Inflow Control Devices (AICDs). It uses internal pressure cycles to manage the critical flowback phase of the reservoir segments, ensuring optimal well clean-out and maximizing initial production.
ILFBV Strategic Advantages:
Automated Clean-out: Ensures proper flowback of drilling/completion fluids from the reservoir segment.
Optimized Productivity: Automatically redirects flow to the AICD once the first oil appears, ensuring immediate flow control management.
Scalability: The system is designed to allow up to 20 ILFBVs per well, offering flexibility for large, multi-zone completions.
Eliminates Intervention: Completes the crucial flowback stage without requiring rig time for traditional intervention equipment.
Lower Completion: ILSIV
The Intervention-less Selective Injection Valve (ILSIV)
The Interventionless Selective Injection Valve (ILSIV) is a pressure-cycle actuated downhole valve developed by Completion Master to enable selective, segment-by-segment injection without the need for coiled tubing, wireline, or hydraulic control lines. The ILSIV is specifically designed for extended reach and high-friction wells, where conventional coiled tubing operations are unable to reach total depth (TD). The valve operates through tubing pressure communication from surface, allowing accurate placement of stimulation fluids, acids, and chemicals into targeted reservoir segments while maintaining a fully intervention-less completion philosophy. The ILSIV is developed in line with Completion Master intervention-less completion philosophy, focusing on mechanical simplicity, operational reliability, and reservoir control in complex well architectures.
THE ILSIV SOLUTION
The ILSIV provides a simple, robust, and intervention-less solution for selective injection operations. By utilizing pressure-cycle communication from surface, the system enables accurate and repeatable injection into isolated reservoir segments without relying on conventional intervention methods.
COMPLETION CHALLENGES
Coiled tubing unable to reach TD in extended reach wells due to friction losses.
High operational cost and risk associated with intervention-based injection.
Limited control over selective injection placement
Increased non-productive time (NPT) during stimulation operations.
OPERATING PRINCIPLE
The ILSIV operates autonomously using controlled pressure cycles applied from surface:
Tubing pressure is applied to actuate the valve
The valve shifts to the selected injection position
Injection is performed into the isolated reservoir segment
Pressure is bled off to reset or index the valve
Subsequent pressure cycles enable injection into the next segment
Pressure-based communication allows reliable selective injection without mechanical intervention.
KEY FEATURES
True Intervention-Less Operation: Eliminates the requirement for coiled tubing or wireline operations.
Pressure-Cycle Actuated Control: Surface-applied pressure cycles provide simple and reliable downhole communication.
Selective Segment-by-Segment Injection: Ensures only one reservoir segment is injected at a time.
Designed for Extended Reach Wells: Ideal for wells with long horizontals and high friction losses.
Robust Mechanical Design: Engineered for repeated pressure cycling and long-term downhole exposure.
Seamless Integration with ILCV Completions: Compatible with liner-based open-hole completion architectures.
APPLICATIONS
- Matrix acid stimulation
- Chemical injection (scale, corrosion, paraffin, solvent treatments)
- Selective stimulation in extended reach wells
- Intervention-less reservoir treatment campaigns
VALUE PROPOSITION
Eliminates CT Reach Limitations: Enables selective injection in wells where CT cannot reach TD.
Reduced Operational Complexity and Cost: Minimizes logistics, equipment, and personnel requirements.
Improved Treatment Effectiveness: Ensures fluids are injected into the intended reservoir interval.
Reduced HSE Exposure: Intervention-less operations lower personnel exposure and operational risk.
Enhanced Well Lifecycle Management: Supports multiple selective injection campaigns over the life of the well.
Lower Completion: ILSIV
The Intervention-less Selective Injection Valve (ILSIV)
The Interventionless Selective Injection Valve (ILSIV) is a pressure-cycle actuated downhole valve developed by Completion Master to enable selective, segment-by-segment injection without the need for coiled tubing, wireline, or hydraulic control lines. The ILSIV is specifically designed for extended reach and high-friction wells, where conventional coiled tubing operations are unable to reach total depth (TD). The valve operates through tubing pressure communication from surface, allowing accurate placement of stimulation fluids, acids, and chemicals into targeted reservoir segments while maintaining a fully intervention-less completion philosophy. The ILSIV is developed in line with Completion Master intervention-less completion philosophy, focusing on mechanical simplicity, operational reliability, and reservoir control in complex well architectures.
THE ILSIV SOLUTION
The ILSIV provides a simple, robust, and intervention-less solution for selective injection operations. By utilizing pressure-cycle communication from surface, the system enables accurate and repeatable injection into isolated reservoir segments without relying on conventional intervention methods.
COMPLETION CHALLENGES
Coiled tubing unable to reach TD in extended reach wells due to friction losses.
High operational cost and risk associated with intervention-based injection.
Limited control over selective injection placement
Increased non-productive time (NPT) during stimulation operations.
OPERATING PRINCIPLE
The ILSIV operates autonomously using controlled pressure cycles applied from surface:
Tubing pressure is applied to actuate the valve
The valve shifts to the selected injection position
Injection is performed into the isolated reservoir segment
Pressure is bled off to reset or index the valve
Subsequent pressure cycles enable injection into the next segment
Pressure-based communication allows reliable selective injection without mechanical intervention.
KEY FEATURES
True Intervention-Less Operation: Eliminates the requirement for coiled tubing or wireline operations.
Pressure-Cycle Actuated Control: Surface-applied pressure cycles provide simple and reliable downhole communication.
Selective Segment-by-Segment Injection: Ensures only one reservoir segment is injected at a time.
Designed for Extended Reach Wells: Ideal for wells with long horizontals and high friction losses.
Robust Mechanical Design: Engineered for repeated pressure cycling and long-term downhole exposure.
Seamless Integration with ILCV Completions: Compatible with liner-based open-hole completion architectures.
APPLICATIONS
- Matrix acid stimulation
- Chemical injection (scale, corrosion, paraffin, solvent treatments)
- Selective stimulation in extended reach wells
- Intervention-less reservoir treatment campaigns
VALUE PROPOSITION
Eliminates CT Reach Limitations: Enables selective injection in wells where CT cannot reach TD.
Reduced Operational Complexity and Cost: Minimizes logistics, equipment, and personnel requirements.
Improved Treatment Effectiveness: Ensures fluids are injected into the intended reservoir interval.
Reduced HSE Exposure: Intervention-less operations lower personnel exposure and operational risk.
Enhanced Well Lifecycle Management: Supports multiple selective injection campaigns over the life of the well.
Mono-bore Completion: ILCTV
The Intervention-less Cement Through Valve
Overview
The ILCTV (Intervention-less Cement Through Valve) is a hydraulically operated, multi-cycle valve designed for mono-bore completion strings. It enables cement-through operations while allowing controlled reverse circulation of excess cement from the annulus and residual cement from the tubing β all without slickline, dropped balls, or milling.
The Challenge
Conventional cement-through systems rely on dropped balls and post-cement milling. These tools are often not qualified as pressure barriers, creating potential leak paths, increasing operational time, and adding cost and risk.
The ILCTV Solution
ILCTV operates through controlled hydraulic pressure cycles, eliminating dropped balls and intervention. The valve automatically enables cement placement, reverse circulation, and final barrier isolation in a single, intervention-less system.
Key Benefits
Eliminates slickline, dropped balls, and milling
Enables clean reverse circulation of excess cement
Reduces operational time and cost
Provides a qualified metal-to-metal pressure barrier
Fully non-elastomeric design for maximum integrity
Applications
Automated cement-through operations
Reverse circulation of excess annular cement
Removal of residual cement from tubing
Multiple casing pressure tests while running
Completion packer setting without intervention
Technical Snapshot
Pressure Rating: 5,000 psi
Temperature Rating: 300Β°F
Sizes Available: 2-7/8 in, 3-1/2 in, 4-1/2 in, 5-1/2 in
Mono-bore Completion: ILCTV
The Intervention-less Cement Through Valve
Overview
The ILCTV (Intervention-less Cement Through Valve) is a hydraulically operated, multi-cycle valve designed for mono-bore completion strings. It enables cement-through operations while allowing controlled reverse circulation of excess cement from the annulus and residual cement from the tubing β all without slickline, dropped balls, or milling.
The Challenge
Conventional cement-through systems rely on dropped balls and post-cement milling. These tools are often not qualified as pressure barriers, creating potential leak paths, increasing operational time, and adding cost and risk.
The ILCTV Solution
ILCTV operates through controlled hydraulic pressure cycles, eliminating dropped balls and intervention. The valve automatically enables cement placement, reverse circulation, and final barrier isolation in a single, intervention-less system.
Key Benefits
Eliminates slickline, dropped balls, and milling
Enables clean reverse circulation of excess cement
Reduces operational time and cost
Provides a qualified metal-to-metal pressure barrier
Fully non-elastomeric design for maximum integrity
Applications
Automated cement-through operations
Reverse circulation of excess annular cement
Removal of residual cement from tubing
Multiple casing pressure tests while running
Completion packer setting without intervention
Technical Snapshot
Pressure Rating: 5,000 psi
Temperature Rating: 300Β°F
Sizes Available: 2-7/8 in, 3-1/2 in, 4-1/2 in, 5-1/2 in
Technical Resources & Demonstration
Watch the ILCV & ILFBV System Demo
Full operational animation of the intervention-less Completion System.
Solutions for Maximum Efficiency
Oil & Gas Completion
Revolutionizing upper and lower completions by dramatically cutting rig time, eliminating intervention costs, and optimizing reservoir inflow from the moment of production.
Result: Faster Time-to-Production & Enhanced Productivity.
Manufacturing & Process Control
Our reliable, multi-cycle control mechanisms are adaptable for critical, high-pressure industrial process systems, minimizing manual maintenance and maximizing continuous operational uptime.
Result: Increased Uptime & System Reliability.
Case Studies: Verified Global Impact.
ILCV: Accelerating Completion Time
Major Middle East Operator, Dec 2024 Contract
In partnership with a major global oil producer, our ILCV system was implemented to eliminate multiple runs of traditional wireline intervention during the completion phase. This translated to a 25% reduction in non-productive time (NPT), leading to substantial cost savings and faster time-to-production.
ILFBV: Maximizing Reservoir Segment Flow
By deploying our scalable ILFBV technology (up to 20 units per well), we ensured every reservoir segment achieved proper clean-out before autonomous flow redirection. Post-production analysis showed a 15% immediate increase in stabilized oil production.
QHSE Commitment
Completion Master FZ-LLC operates in accordance with internationally recognized standards for Quality, Health, Safety, and Environmental (QHSE) management. Our integrated management system is certified to:
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ISO 9001 Quality Management
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ISO 14001 Environmental Management
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ISO 45001 Occupational Health & Safety
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ISO 29001 Oil & Gas Industry Quality Requirements
These certifications reflect our commitment to delivering reliable interventionless completion solutions while ensuring safe operations, environmental responsibility, and continuous improvement.
Completion Master FZ-LLC operates in accordance with internationally recognized standards for Quality, Health, Safety, and Environmental (QHSE) management. Our integrated management system is certified to:
- ISO 9001 Quality Management
- ISO 14001 Environmental Management
- ISO 45001 Occupational Health & Safety
- ISO 29001 Oil & Gas Industry Quality Requirements
These certifications reflect our commitment to delivering reliable interventionless completion solutions while ensuring safe operations, environmental responsibility, and continuous improvement.
Commitment to a Sustainable Future
Our core mission is to complete wells FASTER, CHEAPER and SAFER. This efficiency translates into a smaller operational footprint and enhanced environmental responsibility.
FASTER
Eliminating days of wireline intervention directly cuts rig time, significantly lowering fuel consumption and CO2 emissions per well.
CHEAPER
Minimizing Non-Productive Time (NPT) and eliminating the logistics of intervention equipment reduces operational costs and the overall material supply chain impact.
SAFER
Autonomous operation eliminates human presence in hazardous downhole environments, minimizing risk exposure and potential environmental incidents.
Latest News
Insights and updates from Completion Master
ILFBV: Solving the AICD Flowback Challenge
How our Flowback Valve ensures clean-out and flow redirection to maximize the efficiency of Autonomous Inflow Control Devices.
Our Global Network of Partners.
Join the Innovation Team
We're building the future of intervention-less well completion. If you are passionate about challenging the status quo and delivering FASTER, CHEAPER, SAFER solutions, we want to hear from you.
Get In Touch
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