•       New Type 93AX Coaxial Separation Seal reduces nitrogen
consumption by up to 80%
•       Designed to maintain seal performance even in the event of
multiple failure scenarios
•       Developed to address customers’ pain points across the energy
and process industries, including oil and gas, power generation and clean
energy
John Crane, a global leader
in rotating equipment solutions, and a business of Smiths Group plc, today
announced the launch of the Type 93AX Coaxial Separation Seal – a next
generation dry gas sealing solution engineered to help customers reduce
emissions, improve equipment reliability, and lower operational costs.
The Type 93AX builds on
John Crane’s legacy of industrial sealing expertise with a robust, fail-safe
design that remains operational even in the event of multiple failure
scenarios. Designed based on direct customer feedback, test data indicates the
mechanical seal reduces nitrogen consumption by up to 80%, compared to
conventional radial separation seals – offering significant efficiency and
sustainability benefits.
Addressing
real industry challenges
Research has shown that
contamination is a significant contributor to dry gas seal failures, making it
one of the leading causes of unscheduled maintenance and equipment downtime.
The Type 93AX is engineered to prevent oil ingress from the compressor bearing
chamber, minimising this risk and supporting more reliable, continuous
operation. Â
According to Deloitte,
unplanned downtime costs the global process industries an estimated $50 billion
annually, with equipment failure responsible for 42% of that unplanned
downtime. In energy and process applications, this can result in losses of up
to $42 million per facility per year, on average. Â
The Type 93AX is designed
to mitigate both performance and financial risks by extending the reliability
of the dry gas seal system and reducing demand on supporting infrastructure
such as nitrogen (N2) generators and air compressors.Â
Three
operating scenarios for added resilience
The seal supports three
operating modes and automatically adapts in failure situations to minimise
disruption and contain gas or oil migration:Â
• Scenario
1:
Standard operation: Non-contacting operation provides positive oil ingress
mitigation.Â
• Scenario
2:
Separation gas loss: Maintains non-contacting operation and oil control even
without separation gas.
• Scenario
3:
Dry gas seal failure: Restricts process gas leakage during compressor shutdown
(up to 35 bar), while maintaining seal integrity up to 70 bar.
Supporting
operational and sustainability goals
The Type 93AX helps
contribute to sustainability goals through reduced emissions and lower energy
usage. By cutting nitrogen use by up to
80%, it decreases demand on N2 generation systems – a source of both energy
consumption and cost. According to the
International Energy Agency (IEA), improving industrial efficiency could cut
global energy use by 12% by 2040, further underlining the importance of
solutions like the Type 93AX.
Mike Eason, Chief
Technology Officer at John Crane, said: “Our customers told us they wanted a
separation seal that increases safety, efficiency, and reliability. The Type
93AX delivers on these priorities. It’s
designed to keep working in real-world failure conditions to protect their most
critical assets, and reduce environmental impact, while driving down OPEX and
CAPEX.Â
Eason continued: “The new
seal is compatible with John Crane’s dry gas seal portfolio and is supported by
a global network of over 200 facilities, including manufacturing, sales and
services, and 13 global turbo service centres in more than 50 countries. Â It can be sold as part of a bundled first-fit
order or compressor upgrade, or supplied as a stand-alone product to meet
customer-specific requirements.
More
information can be found here:
