WEBINAR: AVOIDING COMMON PITFALLS IN PUMP SELECTION

Selecting the right pump for your application can be a challenging task, and many customers face difficulties due to common errors in the selection process. These errors lead to poor pump performance, frequent rerating requirements, and increased costs. In this webinar, our industry experts will share valuable insights on how to avoid these pitfalls and achieve optimal pump performance.

Join us to learn about the various methods and best practices that can help you navigate the pump selection process more effectively, ensuring that you make informed decisions and select the best pump for your specific needs.

OEM BACKED OPTIMAL PUMP PERFORMANCE

By working closely with a pump OEM like Trillium Flow Technologies, you can leverage our extensive industry knowledge and expertise to achieve improved pump performance, resulting in significant cost savings and increased efficiency.

Webinar Details

In this webinar, our team will discuss:

  • Common errors in pump selection and why they occur
  • The impact of poor pump selection on performance and costs
  • Strategies to avoid common pitfalls in the selection process
  • The importance of collaboration with pump OEMs for optimal results
  • How Trillium Flow Technologies product portfolio and global reach can help address your pumping needs

Throughout the session, we will highlight real-world examples and case studies to demonstrate the effectiveness of our approach. By the end of the webinar, you will have a better understanding of how to select the right pump for your application and how partnering with a trusted pump OEM can lead to improved performance and cost savings.

Date:

April 18th, 2024

Time:

Who Should Attend:

EPC Companies, End Users, Engineering and Projects Teams

Cost:

The webinar is free to attend, simply register below.

RSVP:

Limited space is available!
RSVP today by completing the form below.

Our Speakers

Simon Bradshaw
Global Director of Engineering & Technology

Simon Bradshaw is the Global Director of Engineering and Technology at Trillium Flow Technologies, a role he has held since March 2022, based in Glasgow, Scotland. His career spans over two decades, with expertise in CFD, mechanical engineering, and scuba diving. Simon has held leadership positions at CIRCOR International Inc. and ITT Goulds Pumps, managing engineering groups and overseeing product development. He holds a BEng (Hons) in Mechanical Engineering (CAE) from Heriot-Watt University. Simon’s contributions to the field are evident through his publications, patents, and certifications, including being a Chartered Engineer.

Sam Eccles
Product Director – Pumps

Sam Eccles has served as the Product Director of Pumps for Trillium Flow Technologies since May 2022. In this role, he brings his extensive experience in product management, project engineering, and quality management to drive advancements in the company’s pump offerings. Sam’s background includes positions as Global Product Line Lead at Celeros Flow Technology and various roles at CLYDEUNION Pumps, where he worked for nearly 13 years. He holds a Master of Business Administration from Bradford University School of Management and a Bachelor of Engineering in Automotive Engineering from The University of Huddersfield.

Francesca Rizzi
Product Manager – Pumps

Francesca Rizzi has worked as a Product Manager at Trillium Flow Technologies since March 2023, having previously served in Product Management Support starting in February 2019. Her extensive experience in the industry includes various positions at Trillium Flow Technologies, formerly Weir, over the past 15 years as Quality Assurance Manager, Final Documentation and Document Controller Manager, and Project Engineer. Francesca’s educational background includes studies at Politecnico di Milano and Liceo Classico “Cesare Beccaria.” Her expertise in quality assurance, documentation management, and project engineering contributes to the advancement of Trillium Flow Technologies products and services.

AHP & AHP-DS BB3 Type API 610 Centrifugal Pump - Side Mechanical View

RSVP: