Thesis Project Mechanical/Process Engineer at Weir

Venlo, Limburg, Netherlands -

Full Time

Start Date

Immediate

Expiry Date

16 May, 26

Salary

0.0

Posted On

15 Feb, 26

Experience

0 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Mechanical Engineering, Process Engineering, Mineral Processing, Hydraulic Calculations, Modeling, Engineering Formulas, Empirical Correlations, Parameter Studies, Analytical Skills, Adaptability, Excel, MATLAB, Python

Industry

mining

Description

Thesis Project Mechanical/Process Engineer Division: Weir Minerals Location: Venlo, The Netherlands Duration: +- 3 months Are you dreaming of getting the opportunity where you can be a part of an International company that lead the market in Engineering, and which make mining operations more sustainable and profitable? At Weir Minerals we are looking for an student in Mechanical Engineering who can be a part of our Venlo Technology Hub (VTH) to work on a challenging project! We have an opening for a student to work on the project “Flow Breakthrough Startup Pressure Calculation for Vertical Stirred Milling Systems." Further technical details about the assignment will be shared with shortlisted candidates. A designated VTH supervisor will guide you throughout the project and provide additional information regarding the technical scope and department activities during the interview. VTH Department: The VTH (Venlo Technology Hub) hosts all innovation projects and provides support for all other departments within the organization where cost reduction, product improvement and increased service to customers are highly valued. We remain accountable from request through delivery to aftercare and support within service trajectories. Weir Minerals Netherlands functions as knowledge hub for displacement pump technology and high pressure grinding rollers within the Weir Group. Continuously pushing the boundaries of our knowledge is of paramount importance to our department. Goal of the project and tasks: To develop a calculation method that predicts the slurry pressure required to overcome static resistance in the mill and achieve initial flow during startup. Determine the hydraulic resistance of the mill at startup by modeling slurry flow through the packed media using porous-media theory. Calculate breakthrough pressure needed for slurry to begin flowing through the media during startup, using engineering formulas and empirical correlations. Evaluate sensitivity to slurry density, viscosity, and shaft speed through structured engineering calculations and parameter studies. Propose operational guidelines for optimizing startup sequences, reducing risk of pump overload, and ensuring smoother transition to steady-state flow. Skills & Requirements: The student is currently enrolled at a Dutch university in Mechanical Engineering, Process Engineering, Mineral Processing or a similar program. The assignment is appropriate for a Bachelor’s internship. The project requires full-time (40 hours per week) availability. Proficiency in English, both verbally and in writing, is required. Basic experience with engineering tools such as Excel, MATLAB, or Python is beneficial. You are analytical and enjoy applying hydraulic calculations to assess flow conditions and operational constraints. You are adaptable and capable of working effectively in a project environment where boundary conditions may change Period: +- 3 Months Curious about this role? If you have any questions about this project you can contact us via NL002.recruitment@mail.weir Our offer: Attractive internship allowance; Travel allowance for commuting if you don’t have a Dutch student travel card; A lot of learning opportunities within our online learning campus; Excellent (global) career opportunities in Weir. Did you know? Several colleagues once started as interns at Weir. Your next step could be the start of something big! Students should be fully authorised to work in the country to which you are applying, without sponsorship. We are Weir Founded in 1871, Weir engineers solutions that improve safety, efficiency and sustainability - helping to provide the essential resources needed by a growing world. We are a global family. We are proud of our unique blend of talent, technology and culture. We are here to inspire you to do the best work of your life! For additional information about what it’s like to work at Weir, please visit our Career Page. Weir is committed to an inclusive and diverse workplace. We are an equal opportunity employer and do not discriminate on the basis of race, national origin, gender, gender identity, sexual orientation, veteran status, disability, age, or any other legally protected status. We are Weir. And the growing world depends on us. It depends on us constantly reinventing. Quickly adapting. Continually finding better, faster, more sustainable ways to access the resources it needs to thrive. And it depends on each and every one of us doing the best work of our lives. It’s a big challenge – but it’s exciting. And it’s one we can’t wait to be part of. Thank you for your interest in joining us.

Responsibilities

The primary goal is to develop a calculation method to predict the slurry pressure needed to overcome static resistance and initiate flow during the startup of vertical stirred milling systems. Tasks involve modeling slurry flow through packed media, calculating breakthrough pressure, evaluating sensitivity to various parameters, and proposing operational guidelines for optimizing startup sequences.