Hardide plc EDF Energy to field test Hardide-coated blades

Hardide Plc
[shareaholic app="share_buttons" id_name="post_below_content"]

Hardide plc (LON: HDD), the provider of advanced surface coating technology, has today announced that preliminary tests indicate that Hardide nanostructured chemical vapour deposition coating can extend the life of steam turbine blades through significantly enhanced resistance to water droplet erosion and solid particle erosion.

The tests, carried out by the National Physical Laboratory and the University of Manchester, assessed the effectiveness of the Hardide coating as protection from WDE and cracking on FV520B last stage turbine blades.

After 90 hours of exposure to WDE (up to 1.2×108 water droplet impacts) Hardide-A coated 410 stainless steel samples showed almost no discernible damage in the central zone. The uncoated 410 stainless steel samples suffered major damage with a 200 microns deep scar across the sample face after a much shorter exposure of just 7 hours.

Tests commissioned by Hardide Coatings’ customer EDF Energy at the University of Manchester examined the static behaviour solid particle erosion resistance of the Hardide coating on FV520B steam turbine blade material. These yielded 0.18% weight loss for uncoated material compared to 0.04% weight loss for coated blades after 30 hours of static testing. The coating was shown to have a minimal effect on the blade’s natural frequencies; however, this effect is dependent on the coating thickness and blade design.

The results will be revealed today at the Institution of Mechanical Engineers’ STUG (Steam Turbine Users Group) conference in Manchester in a joint presentation by Dr Wolfgang Hahn, Commissioning Manager, Hinkley Point C (HPC) Nuclear New Build at EDF Energy, Hardide Coatings’ Technical Director, Dr Yuri Zhuk and Business Development Manager, Robin Gillham.

Dr Zhuk of Hardide Coatings commented:

“Water droplet erosion and fatigue are industry-wide pressing issues and we are very pleased with these initial test results which demonstrate the protection that the Hardide CVD coating offers against water droplet and solid particle erosion. Water droplet erosion damages the surface of steam and gas turbine blades, increasing turbine rotation drag and reducing efficiency. These tests have proven that the Hardide coating can protect the leading and trailing edges of the blades which will increase their service life and maintain optimal turbine efficiency for longer, saving downtime and maintenance costs.”

Dr Hahn of EDF Energy said:

“These preliminary tests are very encouraging and show the Hardide CVD coating offers a significant improvement for preventing material loss rates.”

EDF Energy plans to begin field testing Hardide-coated blades in the near future.

We’ll keep you in the loop!

Join 1,000's of investors who read our articles first

We don’t spam! Read our privacy policy for more info.

Twitter
LinkedIn
Facebook
Email
Reddit
Telegram
WhatsApp
Pocket
Find more news, interviews, share price & company profile here for:
    Hardide plc secures a 10-year deal for coating aerospace cargo door components, boosting revenue prospects with its cutting-edge tungsten-carbide coatings.
    Hardide plc (LON:HDD) appoints Dr. Bryan Allcock as an Independent Non-Executive Director, effective January 2025, to drive growth and innovation.
    Hardide plc (LON: HDD) forecasts FY24 revenue at £4.7m, with improved H2 sales and a focus on driving growth through strategic business development.
    Hardide plc (LON:HDD) announces CEO transition and appointment of Sole Broker. Steve Paul steps down as director, Matt Hamblin remains CEO.
    Hardide plc (LON:HDD) announces its interim Statement for the six months ended 31 March 2024, showing improved trading momentum and financial results.
    Stay updated on Hardide plc (LON:HDD) as they prepare to release their results for the six-month period ending 31 March 2024 on 22 May 2024.

      Search

      Search