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General Electric Engineer Jobs (NOW HIRING)

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General Electric Engineer information

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$39K

$101.8K

$137.5K

How much do general electric engineer jobs pay per year?

As of Jul 7, 2026, the average yearly pay for general electric engineer in the United States is $101,752.00, according to ZipRecruiter salary data. Most workers in this role earn between $84,000.00 and $116,500.00 per year, depending on experience, location, and employer.

How much does GE pay their engineers?

General Electric engineers' salaries vary based on experience, location, and specific role, but the average annual salary ranges from $70,000 to $120,000. Entry-level engineers typically start around $70,000, while experienced engineers can earn over $100,000, especially in specialized fields or with advanced certifications.

Can I make 200k as an electrical engineer?

Electrical engineers, including those working as general electric engineers, can potentially earn $200,000 or more annually, especially with extensive experience, advanced certifications, or in high-paying industries like power generation or aerospace. Salaries vary based on location, specialization, and level of seniority, with senior roles and managerial positions more likely to reach or exceed this figure.

What are some common challenges faced by General Electric Engineers when working on multidisciplinary projects?

General Electric Engineers often collaborate with professionals from various fields, such as mechanical, civil, and software engineering. One of the main challenges is ensuring effective communication and integration of different technical requirements into a cohesive design. Balancing project timelines, managing resource constraints, and addressing unforeseen technical issues are also common hurdles. Successful engineers proactively coordinate with team members, utilize project management tools, and remain adaptable to evolving project needs.

What is the difference between General Electric Engineer vs Mechanical Engineer?

AspectGeneral Electric EngineerMechanical Engineer
Required CredentialsBachelor's degree in engineering, GE-specific trainingBachelor's degree in mechanical engineering, professional licensure often preferred
Work EnvironmentIndustrial settings, corporate offices, manufacturing plantsManufacturing facilities, design offices, research labs
Employer & Industry UsagePrimarily within General Electric or similar conglomeratesVarious industries including automotive, aerospace, energy
Common Search & ComparisonOften compared for engineering roles within GECompared for general mechanical engineering roles across industries

The comparison shows that General Electric Engineers and Mechanical Engineers share similar educational backgrounds and work environments, but GE Engineers are typically employed within GE's specific projects and systems, while Mechanical Engineers work across diverse industries. Understanding these differences helps job seekers target the right roles based on their career goals and credentials.

What are the key skills and qualifications needed to thrive as a General Electric Engineer, and why are they important?

To thrive as a General Electric Engineer, you need a solid background in electrical engineering principles, problem-solving, and project management, typically supported by a bachelor's degree in electrical engineering or a related field. Familiarity with industry-standard software such as AutoCAD, MATLAB, and simulation tools, as well as relevant certifications like a Professional Engineer (PE) license, is often required. Strong analytical thinking, teamwork, and effective communication skills help engineers collaborate and innovate in complex projects. These competencies are essential for designing reliable electrical systems, ensuring safety and compliance, and delivering successful engineering solutions.

What engineer makes $500,000 a year?

Highly experienced engineers in specialized fields such as petroleum, aerospace, or nuclear engineering can earn salaries approaching or exceeding $500,000 annually, often including bonuses and stock options. These roles typically require advanced degrees, extensive expertise, and leadership responsibilities within large organizations or projects.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as petroleum, aerospace, or software engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High compensation often involves working in high-demand industries, holding advanced certifications, or managing large projects or teams.

What does a General Electric Engineer do?

A General Electric Engineer is responsible for designing, developing, testing, and overseeing the manufacturing of electrical equipment, systems, or components. Their work may involve power generation, transmission, electronics, control systems, or other electrical technologies. They often collaborate with other engineers and professionals to solve technical challenges, ensuring projects meet safety and quality standards. General Electric Engineers may work in various industries, including energy, manufacturing, transportation, or telecommunications.
More about General Electric Engineer jobs
What cities are hiring for General Electric Engineer jobs? Cities with the most General Electric Engineer job openings:
What states have the most General Electric Engineer jobs? States with the most job openings for General Electric Engineer jobs include:
Infographic showing various General Electric Engineer job openings in the United States as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $101,752 per year, or $48.9 per hour.
Electric Reliability & Standards Engineer

Electric Reliability & Standards Engineer

City of Ocala

Ocala, FL โ€ข On-site

$124K - $155K/yr

Full-time

This job post hasย expired 1 day ago.ย Applications are no longer accepted.


Job description

Description GENERAL DESCRIPTION OF POSITION This professional engineering position is responsible for ensuring the reliability, safety, and standardization of Ocala Electric Utility's transmission and distribution systems. The Electric Reliability & Standards Engineer leads the analysis and improvement of system reliability performance, manages the development and enforcement of construction and material standards, and provides technical direction for protection coordination, fault studies, and corrective design. The position collaborates closely with the Electric Engineering Supervisor - Planning & Design to ensure design practices align with system reliability strategies and long-term infrastructure goals.

It functions as a technical authority and subject-matter expert supporting Engineering, Operations, and Procurement to strengthen electric system integrity, efficiency, and customer reliability. This position reports directly to the Engineering & GIS Manager or designee. Examples of Duties ESSENTIAL DUTIES AND RESPONSIBILITIES Lead System Reliability Analysis and Performance Improvement: Monitor, analyze, and report on electric system reliability indices (SAIDI, SAIFI, CAIDI, MAIFI, etc.)

Investigate outages, equipment failures, and recurring reliability concerns. Recommend corrective actions and coordinate implementation with Operations, Engineering, and T&D field crews. Develop and maintain dashboards and reports that track reliability trends and performance improvements across the utility.

Develop and Maintain Construction and Material Standards: Lead the creation, review, and publication of electric system construction and material standards. Evaluate materials and vendors to ensure quality, availability, and cost-effectiveness. Maintain the approved materials catalog and coordinate with all stakeholders on specification updates and stocking strategies.

Provide training and guidance to engineers, technicians, and field staff on new standards, materials, and procedures to ensure consistency and compliance. Perform Protection, Coordination, and Relaying Engineering: Lead the development and application of protection philosophies, coordination standards, and distribution relaying schemes for the transmission and distribution system. Conduct system-wide fault and coordination studies to ensure proper protection margins, device selectivity, and compliance with reliability and safety standards.

Develop, maintain, and verify relay settings and protective-device parameters, including reclosers, fuses, and sectionalizing equipment. Collaborate with Substation, T&D, and System Operations personnel to implement, test, and validate protection and automation schemes. Provide technical guidance on relay applications, coordination practices, and communication interfaces supporting system protection and reliability objectives.

Provide Engineering Governance and Technical Expertise: Serve as a subject-matter expert during post-event technical evaluations, reliability investigations, and engineering reviews. Maintain system models and reliability-related datasets. Review and recommend technology, automation, and analytical tools that improve reliability performance.

Participate in cross-departmental working groups addressing reliability, standards, and asset performance. Support Operational Coordination and System Analysis: Provide technical and analytical support to System Operations, Substation, and T&D staff to ensure effective coordination and reliable system performance. Collaborate on operational planning, event analysis, and post-incident reviews to identify system improvements and enhance protection and reliability practices.

Serve as a reliability liaison between Engineering and System Operations to align operational activities with engineering standards and reliability objectives. Lead Continuous Improvement and Documentation Initiatives: Maintain detailed records of reliability studies, standards revisions, and materials evaluations. Prepare technical reports and presentations for management summarizing reliability trends, material performance, and improvement initiatives.

Support long-term planning efforts and contribute to capital improvement recommendations through data-driven reliability analysis. Perform any other related duties as required or assigned. Minimum Qualifications To perform this job successfully, an individual must be able to perform each essential duty mentioned satisfactorily.

The requirements listed below are representative of the knowledge, skill, and/or ability required. EDUCATION AND EXPERIENCE Bachelor's degree in engineering (electrical preferred; mechanical considered) from an accredited college or university. Minimum of eight (8) years of progressively responsible experience in electric utility reliability, protection, or standards engineering.

Experience must include system analysis, fault and coordination studies, and the development or maintenance of protective-device settings and construction standards. Must demonstrate extensive knowledge of the National Electrical Safety Code (NESC), IEEE protection and coordination standards, and electric utility engineering analysis and modeling software. An equivalent combination of education and training may be considered.

REQUIRED CERTIFICATES, LICENSES, REGISTRATIONS Must possess a valid Florida Driver's License with an acceptable driving record. Certification or documented training in electric utility protection and coordination principles is preferred at time of hire and required within twelve (12) months of employment. PREFERRED CERTIFICATES, LICENSES, REGISTRATIONS E.I.T

(Engineer-in-Training) or F.E. (Fundamentals of Engineering) certification preferred. P.E

(Professional Engineer) license desirable. Specialized training or certification in protective relaying, coordination, or power-system protection. Supplemental Information ANALYTICAL ABILITY / PROBLEM SOLVING MODERATELY DIRECTED.

Activities covered by wide-ranging policies and courses of action, and generally directed as to execution and review. PLANNING With regard to general assignments in planning time, method, manner and/or sequence of performance of own work. CONSIDERABLE RESPONSIBILITY; may also occasionally assist in the planning of work assignments performed by others within a limited area of operation.

DECISION MAKING Performs work operations which permit opportunity for decision-making of minor importance. FREQUENTLY; Performs work operations which permit opportunity for decision-making of major importance. FREQUENTLY; COMMUNICATION SKILLS Ability to read, analyze, and understand common scientific and technical journals, financial reports, and legal documents; Ability to respond to complex or difficult inquiries or complaints.

MATHEMATICAL SKILLS Ability to comprehend and apply principles of advanced calculus, modern algebra, and advanced statistical theory. CRITICAL THINKING SKILLS Ability to apply principles of logical or scientific thinking to a wide range of intellectual and practical problems. Ability to deal with noverbal, logical or scientific symbolism such as formulas, scientific equations, and graphs.

SUPERVISION RECEIVED Under general direction, WORKING FROM POLICIES AND GENERAL DIRECTIVES. RARELY REFERS SPECIFIC CASES TO supervisor unless clarification or interpretation of the organization's policy is required. MENTAL DEMAND HIGHLY INTENSE; Continual involvement with strategic and operational management functions which relate to both the short-term and long-term time periods.

USE OF MACHINES, EQUIPMENT AND/OR COMPUTER Regular use of highly complex machines and equipment; specialized or advanced software programs. ACCURACY Probable errors would normally not be detected in succeeding operations and could have serious effects in relationships with patrons and/or with the operations of other segments of the organization. Frequent possibilities of error would exist at all times.

PUBLIC CONTACT Regular contacts with patrons initiated by the employee. Involves furnishing and obtaining information and, attempting to influence the decisions of those contacted. Failure to exercise proper judgment may result in important losses to the organization.

EMPLOYEE CONTACT Contact with other departments or offices and also frequently with individuals in middle level positions; consulting on problems that necessitate judgment and tact, plus frequent contact with senior level internal officials. SOFTWARE SKILLS REQUIRED Accounting Basic Alphanumeric Data Entry Intermediate Contact Management Basic Database Advanced Enterprise Resource Planning Intermediate Human Resources Systems Basic Payroll Systems None Presentation/PowerPoint Advanced Programming Languages Intermediate Spreadsheet Advanced Word Processing/Typing Advanced ADDITIONAL SOFTWARE SKILLS Proficient in specialized engineering and analytical software used for electric system modeling, protection coordination, and reliability analysis. Experienced with data visualization and reporting platforms to evaluate system performance and support decision-making.

Demonstrates strong skills in Microsoft Office applications, AutoCAD, and GIS-based programs to develop, document, and maintain construction standards and technical records. Experience with Milsoft modeling software or similar electric utility analysis platforms is preferred. OTHER SKILLS Requires expert knowledge of electric system reliability, protection coordination, and construction standards.

Must demonstrate strong analytical, critical thinking, and problem-solving skills with the ability to evaluate complex technical data and develop sound engineering recommendations. Requires a high level of attention to detail and the ability to manage multiple priorities while maintaining accuracy and efficiency. Must possess strong written and verbal communication skills and the ability to collaborate effectively with staff at all levels, contractors, and other utility departments.

Demonstrates sound professional judgment, initiative, and a commitment to continuous improvement in support of system reliability and operational excellence. PHYSICAL ACTIVITIES While performing the functions of this job, the employee may be required to: Stand Frequently Walk Frequently Sit Regularly Use hands to handle or feel Continuously Reach with hands and arms Regularly Climb or balance Occasionally Stoop, kneel, crouch or crawl Occasionally Talk or hear Continuously Taste or smell Never WEIGHT LIFT REQUIREMENTS The employee must occasionally lift and/or move: Up to 50 pounds VISION REQUIREMENT Specific vision abilities required by this job may include: Ability to adjust focus (work duties that require the ability to adjust the eye to bring an object into sharp focus at various distances or focal lengths). ENVIRONMENTAL CONDITIONS The following work environment characteristics described here are representative of those an employee encounters while performing essential functions of this job.

Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions. Work near moving mechanical parts (spinning shafts, engines, lifts, etc.) Occasionally Work in high, precarious places (tall structures, bucket lifts, extension ladders, etc.) Never Fumes or airborne particles (painting, sanding, solvents, flying lint or dust particles, etc.) Never Toxic or caustic chemicals (including potential for chemical spills, etc.) Never Outdoor weather conditions (exposure to outdoor heat, cold or inclement weather) Regularly Wet or humid conditions (not weather-related, such as greenhouse, carwash, etc.) Never Extreme cold (not weather-related, such as freezer, cold storage, etc.) Never Extreme heat not weather-related, such as furnace, kitchen, ovens, etc. where temp is regularly above 100 degrees F) Never Risk of electrical shock (live electrical wires, equipment that retains power after shutoff) Regularly Work with explosives (TNT, dynamite, nitroglycerine or other related explosives) Never Risk of radiation (x-ray equipment, nuclear radiation, electromagnetic radiation, etc.) Occasionally Vibration (jack hammer, soil compactor, equipment that creates high vibration, etc.) Never The noise level in the work environment is usually Moderate (business office with computers/printers, light traffic, etc.) ADDITIONAL INFORMATION Emphasis is on engineering governance, system protection, and reliability analysis

This position requires a high degree of technical independence, analytical judgment, and professional accountability to ensure that construction standards, materials, and operating practices support long-term system reliability, safety, and efficiency. Work involves close collaboration with Engineering, T&D, Substation, Operations, and Procurement staff to evaluate system performance and implement reliability improvements. The position functions as a senior technical expert responsible for maintaining compliance with applicable codes, standards, and industry best practices.

Participation in after-hours response, technical review, or post-event analysis may occasionally be required. This is not necessarily an exhaustive list of all responsibilities, skills, duties, requirements, efforts, or working conditions associated with the job. While this is intended to be an accurate reflection of the current job, management reserves the right to revise the job or to require that other or different tasks be performed when circumstances change (e.g., emergencies, changes in personnel, workload, rush jobs, or technological developments).