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Channel Brief·Trilliumflow · 1 episode
Updated Jun 30, 2025

Engineering reliability into extreme-service valve design

Trillium Flow Technologies launches a non-contact rising stem ball valve designed to eliminate wear and fugitive emissions in oil, gas, and petrochemical applications. The channel grounds its case in real engineering challenges and customer pain points.

Trillium Flow Technologies argues that zero-seat-contact valve design solves the friction-driven downtime and safety failures that plague extreme-service industries. The channel proves this through direct customer testimony and engineering traceability: Fred Jansen and Pepijn Esman walk through how strict reliability and fugitive-emission targets shaped every design decision in the Red Point non-contact rising stem ball valve, developed entirely in-house.

Drawn from Zero-Friction Flow: Trillium Launches the Red …

From concept to launch, the RSBV reflects Trillium's ability to respond to tight customer reliability and fugitive-emission targets.

Fred Jansen and Pepijn Esman, Red Point Rising Stem Ball Valve episode

By the numbers

zero

seat friction in Red Point rising stem ball valve design

What the channel argues

InsightTrillium launched the Red Point non-contact rising stem ball valve for extreme-service applications.
InsightZero seat friction reduces wear and enhances safety in demanding environments.
InsightThe RSBV was developed entirely in-house by Trillium to meet strict customer reliability targets.
InsightDesign decisions were shaped by tight fugitive-emission and reliability requirements across oil, gas, petrochemical, and power sectors.

What you'll learn

How non-contact valve design eliminates the friction wear that drives downtime in extreme-service applications.
The engineering process Trillium used to translate customer pain points into the Red Point valve specification.
Why fugitive-emission control and reliability are the core design constraints in modern industrial valve engineering.
How in-house development gives Trillium the ability to respond quickly to customer-specific requirements.

What to do about it

Review your current valve selection in extreme-service applications to identify friction-driven downtime and emission risks.
Engage Trillium directly to understand how non-contact rising stem ball valve design applies to your specific sector requirements.
Evaluate the total cost of ownership of your existing valves against the reliability and safety gains of zero-friction design.

Who and what shows up

Fred Jansen

General Manager, Trillium Netherlands facility

Led customer engagement and design translation that shaped the Red Point rising stem ball valve from concept to launch.

Pepijn Esman

Engineering Manager, Red Point

Detailed the engineering decisions and customer pain points that drove the non-contact rising stem ball valve design.

Michelle Dawn Mooney

Host, FlowCast by Trillium Flow Technologies

Conducted the episode interview extracting the design journey and technical rationale from Trillium leadership.

Questions this channel answers

Q

What makes the Red Point rising stem ball valve different from standard designs?

The Red Point uses non-contact design that eliminates seat friction, reducing wear and enhancing safety in extreme-service applications across oil, gas, petrochemical, and power sectors.

Zero-Friction Flow: Trillium Launches the Red Point® Non…
Q

How did Trillium develop the Red Point valve?

Trillium developed the valve entirely in-house, tracing design decisions directly to strict customer reliability and fugitive-emission targets and real pain points in extreme-service applications.

Zero-Friction Flow: Trillium Launches the Red Point® Non…
Topics:Non-contact rising stem ball valvesOil and gas valve engineeringFugitive emissions controlExtreme-service valve designIn-house valve development
Themes:Engineering from customer pain points, not specifications aloneZero-friction design as a reliability and safety multiplierIn-house capability to meet tight fugitive-emission and reliability targets

Industry context

Valve reliability at extreme temperatures has become a direct profitability driver for industrial plants, elevating integrated solutions to strategic priority status across high-temperature applications.

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