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Rotating Equipment Design Engineer Jobs (NOW HIRING)

$112K - $134K/yr

Your role As a Rotating Equipment Engineer, your mission is to serve as a key technical expert ... Engineering Design & Technical Support: * Perform engineering calculations and tolerance analyses ...

Rotating Equipment Engineer

Orange, TX ยท On-site

$120K - $150K/yr

Confidential Opportunity Rotating Equipment Engineer A confidential employer in Houston, Texas, is seeking a Rotating Equipment Engineer to drive digital transformation and support field service ...

Rotating Equipment Engineer

Houston, TX ยท On-site

$92K - $105K/yr

Your role As a Rotating Equipment Engineer, your mission is to ensure the safe, reliable, and cost ... Engineering Design & Technical Support: * Perform engineering calculations and tolerance analyses ...

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Rotating Equipment Engineer

New York, NY ยท On-site

$165K - $180K/yr

Rotating Equipment Engineer / Reliability Engineer / Mechanical Engineer New York Metro, Connecticut, New Jersey $165,000 - $180,000 + 20% Bonus A Rotating Equipment Engineer is required to provide ...

Support capital projects by providing expertise in the area of rotating equipment in design reviews ... Bachelor's in engineering (required) * Good communication skills, written and verbal * Minimum of ...

Rotating Equipment Engineer

Houston, MN ยท On-site

$112K - $134K/yr

Your role As a Rotating Equipment Engineer, your mission is to serve as a key technical expert ... Engineering Design & Technical Support: * Perform engineering calculations and tolerance analyses ...

Support capital projects by providing expertise in the area of rotating equipment in design reviews ... Bachelor's in engineering (required) * Good communication skills, written and verbal * Minimum of ...

Rotating Equipment Engineer

Boothwyn, PA ยท On-site

$70K - $95K/yr

Rotating Equipment Engineer The Rotating Equipment Group is currently comprised of 17 companies ... Review and Mark-Up drawings (Standard and CAD) of equipment parts and assemblies. * Prepare repair ...

Provides rotating equipment engineering assistance, direction and solutions * Solves technical challenges related to unit operations and capital projects in assigned areas * Upgrades, designs ...

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Rotating Equipment Design Engineer information

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$40.5K

$88.2K

$158.5K

How much do rotating equipment design engineer jobs pay per year?

As of Jul 9, 2026, the average yearly pay for rotating equipment design engineer in the United States is $88,150.00, according to ZipRecruiter salary data. Most workers in this role earn between $68,000.00 and $98,500.00 per year, depending on experience, location, and employer.

What are some common challenges faced by Rotating Equipment Design Engineers, and how can they be addressed?

Rotating Equipment Design Engineers often encounter challenges such as ensuring equipment reliability under varying operational conditions, managing tight project timelines, and coordinating design changes with multiple stakeholders. Addressing these challenges typically involves thorough failure mode analysis, effective use of simulation tools, and close collaboration with manufacturing, maintenance, and project management teams. Proactive communication and staying updated with industry standards are key strategies to mitigate risks and deliver robust designs.

What are Rotating Equipment Design Engineers?

Rotating Equipment Design Engineers are specialized engineers who design, develop, and maintain machinery with moving parts, such as pumps, compressors, turbines, and engines. They are responsible for ensuring the reliability, efficiency, and safety of this equipment, often used in industries like oil & gas, energy, and manufacturing. Their work includes selecting appropriate materials, conducting stress analyses, and collaborating with other engineering disciplines to meet project requirements.

What are the key skills and qualifications needed to thrive as a Rotating Equipment Design Engineer, and why are they important?

To thrive as a Rotating Equipment Design Engineer, you need a solid background in mechanical engineering, expertise in machinery design, and often a bachelor's degree in mechanical or related engineering fields. Familiarity with CAD software, finite element analysis (FEA) tools, and industry standards (such as API or ASME codes) is typically required. Strong problem-solving skills, attention to detail, and effective communication are vital soft skills for collaborating with multidisciplinary teams and clients. These competencies are essential to ensure the safe, reliable, and efficient design of critical rotating machinery in industrial settings.

What is the difference between Rotating Equipment Design Engineer vs Mechanical Engineer?

AspectRotating Equipment Design EngineerMechanical Engineer
CredentialsBachelor's in Mechanical or Mechanical Engineering, possibly PE or relevant certificationsBachelor's in Mechanical Engineering, professional licensure optional
Work EnvironmentDesign-focused, often in industrial, power, or manufacturing settingsVaried, including design, analysis, manufacturing, or maintenance across industries
Industry UsageCommon in power plants, oil & gas, petrochemical, and industrial sectorsWidespread across multiple industries including automotive, aerospace, manufacturing

While both roles require a strong foundation in mechanical principles, the Rotating Equipment Design Engineer specializes in designing and analyzing rotating machinery like turbines, pumps, and compressors, often within industrial settings. The Mechanical Engineer has a broader scope, working on various mechanical systems across industries. The roles overlap in skills and credentials but differ mainly in focus and application.

More about Rotating Equipment Design Engineer jobs
What states have the most Rotating Equipment Design Engineer jobs? States with the most job openings for Rotating Equipment Design Engineer jobs include:
Infographic showing various Rotating Equipment Design Engineer job openings in the United States as of July 2026, with employment types broken down into 89% Full Time, 8% Part Time, and 3% Contract. Highlights an 87% Physical, 3% Hybrid, and 10% Remote job distribution, with an average salary of $88,150 per year, or $42.4 per hour.
1st Shift Process Equipment Design Engineer

1st Shift Process Equipment Design Engineer

Staffing Support Specialists

Waukesha, WI โ€ข On-site

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Job description


Job Title: Process Equipment Design EngineerShift 1st Shift Location; Waukesha, WiPay Range; TBA Job Description
Job Summary
A leading OEM manufacturer of custom industrial batch process equipment, specializing in mixing, blending, drying, milling, and size reduction systems for demanding applications across industries including chemical processing, metals and minerals, industrial manufacturing, and bulk solids processing.
We are seeking a Process Equipment Design Engineer to support the design, development, testing, troubleshooting, and continuous improvement of custom industrial process equipment including double arm mixers, ball mills, ribbon blenders, paddle mixers, dryers, and related mechanical systems. This role is ideal for an experienced, hands-on engineer who enjoys solving real-world mechanical challenges while working closely with manufacturing, vendors, customers, and engineering teams to develop practical, high-performing equipment solutions.
The ideal candidate will have strong experience with rotating equipment, power transmission systems, fabricated machinery, and custom OEM industrial equipment within a manufacturing environment.
Essential Duties and Responsibilities
(Including the following; additional duties may be assigned as needed)
Equipment Design & Engineering
  • Design custom industrial process equipment and related mechanical systems using 3D modeling software.
  • Create detailed assemblies, bills of materials, fabrication drawings, machining prints, and manufacturing documentation.
  • Perform engineering calculations related to horsepower sizing, torque requirements, shaft loading, bearing selection, drive system design, motion, heat transfer, and rotating equipment performance.
  • Design and support rotating mechanical systems including shafts, bearings, gearboxes, couplings, chain drives, seals, and power transmission equipment.
  • Develop manufacturing-ready fabrication and machining drawings including GD&T, fits, tolerances, weldment detailing, and assembly requirements.
  • Support redesign, modernization, and reverse engineering efforts for existing or legacy equipment systems.
  • Assist in the design and integration of vacuum-rated systems, jacketed vessels, thermal transfer systems, inert gas purging systems, and sealing arrangements where applicable.
  • Support equipment selection and configuration based on customer application requirements.
  • Collaborate closely with fabrication and assembly teams to ensure practical, manufacturable, and serviceable equipment designs.
Product Testing & Optimization
  • Develop and support testing procedures for mixers, mills, blenders, dryers, and related equipment.
  • Participate directly in equipment assembly reviews, pilot testing, troubleshooting, and startup support activities.
  • Provide hands-on support during fabrication, assembly, equipment testing, and commissioning to identify and resolve mechanical or process-related issues.
  • Analyze equipment performance and identify opportunities for improved efficiency, throughput, reliability, manufacturability, and ease of maintenance.



  • Recommend and implement design improvements based on testing results, field feedback, manufacturing observations, and equipment performance data to improve reliability, durability, throughput, and serviceability.
  • Assist with prototype evaluation, product refinement, and continuous product improvement initiatives.
Continuous Improvement & Product Development
  • Support ongoing refinement, innovation, and expansion of product offerings.
  • Identify opportunities to improve product reliability, performance, and manufacturing efficiency.
  • Collaborate with manufacturing teams to improve fabrication efficiency and ease of assembly.
  • Assist in standardizing components