Multiphase compression systems designed for real oilfield conditions, handling 100% liquid, 100% gas, or any liquid–gas mixture.
Built for wet gas, liquids, slugs, freezing, and unstable flow—conditions where conventional compression struggles.
Case-study proof
Fluidstream’s strongest credibility comes from measurable field outcomes: uptime, lower maintenance, reduced emissions, and meaningful production or revenue improvement under real operating conditions.
Fluidstream’s unit operated consistently, eliminated gas venting, and delivered continuous, reliable performance in extreme cold-weather field conditions.
A southern Alberta producer used VaporCommander™ to capture tank vapors, reduce emissions, and avoid the ongoing maintenance burden associated with conventional VRU systems.
Fluidstream’s MultiphaseCommander™ helped revive two liquid-loaded wells in Alberta, restoring gas and condensate production without requiring additional separation infrastructure.
Commercial applications
Fluidstream’s technology platform supports three core application areas where operators need lower emissions, stronger uptime, and better performance under real field conditions.
MultiphaseCommander™ is built for the real gathering challenge: gas, oil, water, and condensate moving together while rising backpressure holds production back.
VaporCommander™ is designed for what many sites already know: entrained liquids, slugs, and unstable flow are normal, and they punish conventional gas-only VRUs.
CompressionCommander™ is built for casing gas service where variable gas quality, liquid carryover, slugs, H₂S exposure, and unstable operating conditions demand a different approach.
Fluidstream is designed to reduce facility complexity by handling multiphase production directly through a compact compression platform.
Core strengths
Fluidstream is engineered to deliver dependable field performance, lower maintenance, broader operating flexibility, and stronger economics than conventional gas-only systems in difficult service.
Replace wasted gas, avoid excess support equipment, and open applications that become unattractive when conventional packages need ideal inlet conditions.
Fluidstream’s platform is designed to manage liquids inside the compression process instead of treating liquid presence as a failure mode that must be engineered around.
Piston tracking and control architecture are positioned to help the system respond to slugs, solids buildup, ice risk, and changing flow behavior without constant intervention.
The broader product messaging highlights electric and gas-drive options, H₂S capability, cold-weather startup, remote control, and tougher-service readiness.
Platform Capability
Fluidstream combines broad multiphase operating capability with engineering refinements that reduce infrastructure, operator intervention, and field reliability risk.
Engineered for operation from 100% liquid to 100% gas across liquid-dominant, gas-dominant, and fully multiphase conditions.
Modulates across the operating range without VFD complexity or conventional electrical overhead.
Compresses multiphase streams directly, reducing reliance on upstream separation and scrubber-heavy facility layouts.
Automatically maintains operator-defined pressure targets as field conditions, flow rates, and phase behavior change.
Operating methodology designed for liquid events and unstable multiphase conditions inside the compression chamber.
Engineered for contained operation with reduced routine process-fluid leakage and reduced operator intervention.
Seal-wear detection supports proactive maintenance visibility before seal condition becomes a field reliability issue.
Designed for freeze-prone, unstable, solids-laden production environments where conventional gas-only systems struggle.
Fluidstream’s multiphase platform is supported by U.S. and Canadian patents focused on how compression systems respond when liquids are present in the chamber.
US11098709B2 covers detecting liquid-related conditions and adjusting compressor operation during the stroke, supporting stable operation where conventional systems can experience pressure spikes, upset conditions, and reliability limits.
These patents support operating methods where liquid presence affects chamber volume, pressure response, and compressor behaviour inside the compression process.
Explore PatentsDetects liquid influence and adjusts operation in real time.
Reduces rapid pressure rise caused by incompressible fluids.
Designed for liquids, slugs, and variable field conditions.
Covers how the system responds, not just hardware design.
Patented operating methods with practical field value. Fluidstream’s systems are supported by patents including US11098709B2, helping enable stable operation in vapor recovery, casing gas, and multiphase applications where conventional systems often face limits.
In Alberta, Canada, Fluidstream’s multiphase technology helped revive two liquid-loaded wells that could no longer overcome rising pipeline pressure. The result was restored production, recovered condensate, dependable operation in highly variable multiphase conditions, and no added separation equipment.
“Fluidstream’s MultiphaseCommander didn’t just improve performance—it completely transformed two dead wells into revenue-generating assets.”
Built for engineers, production teams, and decision-makers evaluating multiphase compression for VaporCommander™, CompressionCommander™, and mixed-phase gathering applications. Submit the operating conditions and Fluidstream can assess the technical and economic fit.
