Gland vent/steam condenser with blower

Engineered to maintain turbine vacuum and improve operational efficiency.
Mazda’s Gland Steam Condenser captures and recycles gland steam for reliable, long-term performance.

Gland Vent/Steam Condenser With Blower

Prevents air ingress and steam loss in turbine operations through efficient gland steam recovery.
Designed for continuous operation in demanding power and process industry environments.

Pure javascript image zoom Document

Product Overview

Mazda’s Gland Steam Condenser plays a vital role in maintaining turbine performance by managing the gland seal system. Turbine shafts must exit their casings to couple with driven equipment, creating potential leakage points. The GSC supports the sealing process, ensuring that air does not enter the turbine casing and steam does not escape to the atmosphere. Excess gland steam is collected from the sealing areas and condensed for reuse, preserving vacuum integrity and improving overall system efficiency. Built with robust materials and precision engineering, Mazda’s GSC delivers consistent, reliable service in both main and auxiliary turbine applications.

Advantages

Maintains turbine vacuum by preventing air ingress
Reduces steam loss, improving plant efficiency
Enables energy recovery through steam condensation and reuse
Robust design for continuous-duty industrial applications
Low-maintenance and long operational life
Compatible with ejector or exhaust fan systems for steam removal

How it Works
Use Cases

In a steam turbine, labyrinth packing and gland seal systems use low-pressure steam to seal the shaft exit points. The Gland Steam Condenser collects steam that escapes from these seals via low-pressure piping, directing it to a condenser. Here, the steam is cooled and converted back into water for reuse in the plant’s steam cycle. This process ensures no steam escapes to the atmosphere while preventing air from entering the turbine, both of which are essential for maintaining system vacuum and efficiency.

Power Generation
(Main and Auxiliary Turbines)

In multi-effect evaporators, capturing and reusing waste steam after the final effect

Marine Propulsion Turbines

Steam recovery in drying and processing stages

Process Industry Turbines
(Chemical, Petrochemical, Fertilizer)

Energy recycling in evaporation and concentration processes

Industrial Steam Turbine Systems with Vacuum Operation

In multi-effect evaporators, capturing and reusing waste steam after the final effect

For any inquiries or assistance, our team is ready to offer professional support and guidance. Reach out to us, and we will respond promptly to meet your needs.