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Remote Power System Study Engineer Jobs in Phoenix, AZ

NRTC

Power Systems Advisory Engineer

Phoenix, AZ · On-site +1

This role helps cooperatives translate strategy into action by supporting system studies, planning ... Ability to self-manage and support multiple member utilities in a shared-services or remote ...

NRTC

Power Systems Advisory Engineer

Phoenix, AZ · Remote

This role helps cooperatives translate strategy into action by supporting system studies, planning ... Work is typically performed in a remote office setting * Occasionally travel may be required up to ...

Wilson Engineers

Electrical Engineer (PE)-Remote

Tempe, AZ · On-site +1

$120K - $170K/yr

... Engineer (PE) to join our Tempe, Arizona office. (This job can be remote.) Essential Duties and ... Experience leading, reviewing and interpreting power system studies, arc flash studies * Experience ...

Wood Plc

Distribution Engineer (remote)

Phoenix, AZ · On-site +1

... studies- Experience in power system analysis (such as voltage drop, equipment loading, steady-state voltage rise, etc.) using software such as CYME, ETAP, EasyPower, SKM.- Experience with substation ...

Generac

Power Solutions Manager

Phoenix, AZ · On-site +1

$124K - $154K/yr

... and remote sales support of Generac Industrial products with focus on the Modular Power System ... Electrical Engineering or Mechanical Engineering Degree. * Power generation or engine generator ...

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Remote Power System Study Engineer information

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$55.6K

$116.9K

$178.2K

How much do remote power system study engineer jobs pay per year?

As of May 28, 2026, the average yearly pay for remote power system study engineer in Phoenix, AZ is $116,867.00, according to ZipRecruiter salary data. Most workers in this role earn between $97,300.00 and $133,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Remote Power System Study Engineer, and why are they important?

To thrive as a Remote Power System Study Engineer, you need a solid background in electrical engineering, power systems analysis, and a relevant engineering degree, often with a Professional Engineer (PE) license. Familiarity with specialized software such as PSS®E, ETAP, or DIgSILENT PowerFactory, and experience interpreting grid codes and standards, is typically required. Strong analytical thinking, effective communication, and the ability to collaborate remotely with cross-functional teams are essential soft skills. These competencies ensure accurate system studies, compliance with industry regulations, and efficient problem-solving for reliable power system operations.

How does a Remote Power System Study Engineer typically collaborate with utilities and project teams while working offsite?

As a Remote Power System Study Engineer, collaboration is primarily achieved through virtual meetings, shared technical documentation, and cloud-based modeling tools. You'll regularly interact with utility clients, project managers, and fellow engineers to discuss study requirements, review system models, and present findings. Effective communication and proactive scheduling are essential to ensure alignment on project goals and timely delivery of analyses, especially when working across different time zones. Building strong remote relationships and being adaptable with digital collaboration platforms are key to success in this environment.

What does a Remote Power System Study Engineer do?

A Remote Power System Study Engineer is responsible for analyzing and evaluating electrical power systems from a remote location. Their work involves performing studies such as load flow, short circuit, arc flash, and stability assessments to ensure the reliable and safe operation of power systems. They use specialized software to model electrical networks and identify potential issues or improvements. By working remotely, they collaborate with clients and teams through digital tools to deliver technical reports and solutions for projects in industries like utilities, manufacturing, and renewable energy.

What is the difference between Remote Power System Study Engineer vs Power Systems Analyst?

AspectRemote Power System Study EngineerPower Systems Analyst
CredentialsBachelor's or Master's in Electrical Engineering, relevant certifications (e.g., PE)Bachelor's or Master's in Electrical Engineering or related field, certifications optional
Work EnvironmentRemote or on-site, focused on power system studies and simulationsPrimarily office-based, analyzing power system data and performance
Industry UsageUtility companies, consulting firms, energy sectorUtilities, consulting, energy companies, research institutions

The Remote Power System Study Engineer primarily conducts detailed power system studies, simulations, and analysis to ensure grid stability and reliability. In contrast, the Power Systems Analyst focuses on analyzing existing power system data, performance metrics, and supporting decision-making. Both roles require electrical engineering credentials and often work within similar industries, but their core responsibilities differ in scope and focus.

What are popular job titles related to Remote Power System Study Engineer jobs in Phoenix, AZ? For Remote Power System Study Engineer jobs in Phoenix, AZ, the most frequently searched job titles are:
What job categories do people searching Remote Power System Study Engineer jobs in Phoenix, AZ look for? The top searched job categories for Remote Power System Study Engineer jobs in Phoenix, AZ are:
What cities near Phoenix, AZ are hiring for Remote Power System Study Engineer jobs? Cities near Phoenix, AZ with the most Remote Power System Study Engineer job openings:
Remote Power System Study Engineer jobs near you
Power Systems Advisory Engineer

Power Systems Advisory Engineer

NRTC

Phoenix, AZ • On-site, Remote

Full-time

Posted 29 days ago

Job description

NRTC is Member Driven and Technology Focused - providing solutions that help our 1,500 electric and telephone members bring all the advantages of today's evolving technology to rural America. NRTC's solutions are developed specifically to meet the needs of rural utilities and their customers, and include integrated broadband, managed services, smart grid, mobile solutions. We are a dynamic, growing cooperative with more than 800 employees operating out of eight office locations.
Job Summary
We are looking to add experienced staff to our Smart Grid team to help our utility cooperative members develop smart grid technology roadmaps. Our approach is to educate and support our members as we work with them through a consultative process.
The Power Systems Advisory Engineer supports NRTC member electric cooperatives by providing practical engineering insight, planning support, and implementation guidance that complements NRTC's smart grid advisory services. This role helps cooperatives translate strategy into action by supporting system studies, planning activities, and project execution while recognizing the operational realities and resource constraints common across the cooperative network. This position operates in a dynamic environment, working across multiple member cooperatives and partnering closely with NRTC advisory teams to deliver exceptional member value.
Responsibilities
  • Serve as a trusted engineering advisor to member cooperatives by clarifying objectives, understanding operational constraints, and translating needs into practical engineering approaches and phased roadmaps
  • Lead discovery conversations with engineering, operations, and leadership stakeholders to define problems, constraints, decision criteria, and success measures; document findings in clear, action-oriented summaries
  • Communicate complex technical concepts in decision-ready language for both technical and non-technical audiences, including executive-level briefings and board-ready materials
  • Execute and/or review distribution planning and power system studies, including protection and coordination, arc-flash, fault duty, voltage management and optimization, and power quality assessments, with clear mitigation recommendations
  • Develop study scopes, assumptions, and methodologies that reflect cooperative realities and align recommendations with implementable next steps
  • Provide distributed generation and interconnection planning support, including screening, system impact evaluations, and mitigation options for generators, batteries, and behind-the-meter resources.
  • Support the development and improvement of member DG processes by creating repeatable engineering screens, standard work, data requirements, timelines, and templates
  • Lead reliability and system modernization planning, including feeder improvement concepts, device strategies (reclosers, sectionalizers, DA devices), and integration considerations for SCADA and field automation
  • Partner with member teams to translate reliability goals (e.g., SAIDI/SAIFI) into prioritized, fundable portfolios of projects and operational improvements
  • Contribute to wildfire risk mitigation planning by aligning engineering approaches to risk reduction outcomes, coordinating with internal advisory resources and external partners as needed
  • Provide owner's engineer support on select projects, including design and study reviews, validation of assumptions, procurement/specification input, and implementation oversight
  • Own end-to-end delivery of assigned projects, including scoping, scheduling, internal coordination, quality assurance, and timely completion of deliverables
  • Produce high-quality, defensible technical deliverables such as models, memoranda, reports, and diagrams suitable for reuse and audit
  • Support development and refinement of engineering service offerings through standard scopes, estimating tools, reusable templates, and "starter packages" that improve consistency, utilization, and speed to launch
  • Identify opportunities to extend or deepen member engagements and coordinate with advisory teams to support continuity from assessment through planning, engineering, and implementation
  • Other duties as assigned
Qualifications
Knowledge, Skills, and Abilities
  • Strong knowledge of electric distribution system planning, including load forecasting, circuit performance, voltage and reactive power management, capacity constraints, and contingency analysis
  • Experience performing and/or reviewing power system studies such as load flow, short circuit, protection and coordination, and reliability or resiliency assessments
  • Working knowledge of distributed energy resources (DER) and distributed generation (DG) integration, including interconnection screening, system impact evaluation, mitigation strategies, and hosting capacity-style approaches
  • Familiarity with grid modernization and field automation concepts, including distribution automation devices and SCADA considerations
  • Proficiency in distribution system modeling and analysis tools and the ability to apply results to real-world operational and planning decisions
  • Ability to structure, document, and defend engineering analysis, including defining assumptions, validating data, and clearly explaining results
  • Strong advisory skills, including the ability to lead discovery, diagnose root causes, and translate ambiguous issues into well-defined engineering problems
  • Ability to develop and communicate multiple solution options with clear tradeoffs related to cost, risk, timeline, and operational impact
  • Excellent written and verbal communication skills, with the ability to convey complex technical concepts to both technical and non-technical audiences
  • Ability to self-manage and support multiple member utilities in a shared-services or remote environment while delivering high-quality, defensible work products
Minimum Education and Experience
  • Bachelor of Science in Engineering from an ABET-accredited institution or equivalent combination of technical education and relevant experience required
  • Six (6) or more years of experience working with electric utilities; experience with electric cooperatives strongly preferred
  • Professional Engineer (PE) license preferred
  • Demonstrated proficiency with engineering modeling software and Microsoft Office tools
  • Proven experience applying engineering expertise in a client-facing, advisory, or shared-services context
Physical Demands
  • Work is typically performed in a remote office setting
  • Occasionally travel may be required up to 30%

Disclaimer: The above job description summary is intended to describe the general nature and level of work being performed by individuals assigned to this position. It is not intended to be an exhaustive list of required responsibilities, duties and skills. The order in which responsibilities, duties and skills are listed is not significant.
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