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Entry Level Reliability Engineer Jobs in California

Electrical Engineer (entry level candidates welcome) --- This Electrical Engineer role focuses on ... Exposure to component selection and evaluation for reliability, performance, and cost. * Experience ...

Electrical Engineer (entry level candidates welcome) This Electrical Engineer role focuses on ... Exposure to component selection and evaluation for reliability, performance, and cost. * Experience ...

Quality Engineer

Irvine, CA · On-site

$35 - $40/hr

This entry-level quality engineer will partner closely with a senior engineer in order to provide ... and reliability standards. Skills: * Verbal and written communication skills, analytical and ...

Predictive Maintenance technician

San Diego, CA · On-site

$19 - $26.25/hr

The Predictive Maintenance Technician is an entry-level technical role designed for individuals eager to build a career in advanced maintenance and reliability engineering. You'll be at the forefront ...

POSITION DESCRIPTION: The Process Engineer is an entry level, onsite position based in a ... Use Reliability Engineering tools to drive centerlining and loss elimination * Standardize ...

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Entry Level Reliability Engineer information

See California salary details

$60.2K

$116.4K

$139.2K

How much do entry level reliability engineer jobs pay per year?

As of Jul 8, 2026, the average yearly pay for entry level reliability engineer in California is $116,428.00, according to ZipRecruiter salary data. Most workers in this role earn between $101,200.00 and $127,300.00 per year, depending on experience, location, and employer.

What does an Entry Level Reliability Engineer do?

An Entry Level Reliability Engineer helps ensure that products, systems, or processes operate reliably and meet quality standards. They assist in analyzing failure data, identifying root causes of issues, and working with senior engineers to improve designs or maintenance procedures. Their tasks often include running tests, collecting data, and maintaining documentation. Entry level roles focus on learning industry standards and supporting projects that enhance reliability and performance.

Will SRE be replaced by ai?

Reliability Engineers (SREs) focus on maintaining system stability, and while AI tools can assist with monitoring and automation, they are unlikely to fully replace the need for human expertise in designing, troubleshooting, and improving complex systems. SREs will continue to adapt by integrating AI to enhance their workflows and decision-making processes.

What are the key skills and qualifications needed to thrive as an Entry Level Reliability Engineer, and why are they important?

To thrive as an Entry Level Reliability Engineer, you need a background in engineering (such as mechanical, electrical, or industrial), strong analytical skills, and a basic understanding of reliability principles and failure analysis. Familiarity with tools like reliability modeling software, root cause analysis methods, and Computerized Maintenance Management Systems (CMMS) is commonly expected. Attention to detail, effective communication, and a collaborative mindset are standout soft skills in this role. These competencies are vital for ensuring equipment reliability, minimizing downtime, and supporting continuous improvement initiatives in technical environments.

What is the difference between Entry Level Reliability Engineer vs Maintenance Technician?

AspectEntry Level Reliability EngineerMaintenance Technician
Required CredentialsBachelor's in engineering or related field; certifications like Certified Reliability Engineer (CRE) beneficialHigh school diploma or technical training; certifications like HVAC, electrical, or mechanical licenses
Work EnvironmentOffice and plant floor; data analysis and equipment monitoringPrimarily plant floor; hands-on equipment repair and maintenance
Employer & Industry UsageManufacturing, energy, aerospace; focus on system reliability and performanceManufacturing, facilities, industrial plants; focus on equipment upkeep
Common Search & ComparisonYesYes

The Entry Level Reliability Engineer focuses on analyzing data, improving system reliability, and preventing failures, often requiring a degree in engineering. In contrast, Maintenance Technicians perform hands-on repairs and routine maintenance. While both roles support operational efficiency, the Reliability Engineer emphasizes analysis and planning, whereas the Technician emphasizes direct equipment repair.

What types of projects and responsibilities can an Entry Level Reliability Engineer expect during their first year on the job?

As an Entry Level Reliability Engineer, you will typically start by supporting senior engineers in collecting and analyzing equipment performance data, conducting root cause analyses for failures, and assisting with preventive maintenance planning. You may be tasked with monitoring asset health, updating reliability databases, and participating in team meetings to discuss improvement strategies. Over time, you’ll take on more independent projects, such as developing reliability models or leading smaller failure investigations, which helps build your technical expertise and teamwork skills. This collaborative environment offers valuable exposure to different engineering disciplines and sets a strong foundation for career advancement.

What engineer makes $500,000 a year?

While most entry-level reliability engineers do not earn that level of salary, highly experienced engineers in specialized fields such as petroleum, aerospace, or software engineering with advanced skills and certifications can reach or exceed $500,000 annually, especially in senior or executive roles. These positions often require extensive experience, leadership responsibilities, and expertise in high-demand areas or technologies.

How to get into reliability engineering?

To enter reliability engineering, candidates typically need a bachelor's degree in engineering, manufacturing, or a related field. Gaining experience with data analysis, failure modes, and reliability tools like FMEA or RCM is valuable, along with developing skills in troubleshooting and using software such as MATLAB or SAP. Certifications like Certified Reliability Engineer (CRE) can also enhance job prospects.

Are SREs in demand?

Site Reliability Engineers (SREs) are in high demand due to the increasing reliance on cloud infrastructure, automation, and system reliability. Companies seek SREs with skills in scripting, monitoring tools, and cloud platforms to improve system performance and uptime, making it a growing field for entry-level professionals with relevant technical knowledge.
What are the most commonly searched types of Reliability Engineer jobs in California? The most popular types of Reliability Engineer jobs in California are:
What job categories do people searching Entry Level Reliability Engineer jobs in California look for? The top searched job categories for Entry Level Reliability Engineer jobs in California are:
What cities in California are hiring for Entry Level Reliability Engineer jobs? Cities in California with the most Entry Level Reliability Engineer job openings:
Controls Engineer, Distributed Control System (DCS), Entry Level

Controls Engineer, Distributed Control System (DCS), Entry Level

NAES Corporation

Mckittrick, CA • On-site

$120K - $140K/hr

Full-time

Posted 22 days ago


NAES rating

9.4

Company rating: 9.4 out of 10

Based on 9 frontline employees who took The Breakroom Quiz


Job description

La Paloma Power Facility is located approximately 40 miles west of Bakersfield in McKittrick, California, and operates as a 1,022 MW natural gas-fired combined cycle power plant. Utilizing ABB GT24 combustion turbines, ABB HRSGs, and an ABB VAX 16 steam turbine, the facility delivers efficient and reliable power generation. Its strategic location and proven technology support a dependable electricity supply while maintaining compliance with stringent environmental regulations.

Opportunity Summary

The Entry-Level Controls Engineer, Distributed Control System (DCS), supports the maintenance, reliability, and continuous improvement of the control and automation systems that support the safe and efficient operation of La Paloma Power Facility. This includes the plant's DCS, turbine control systems, PLCs, industrial networks, CEMS, and related automation infrastructure.

Working under the guidance of the Maintenance Manager, this position supports control system maintenance, troubleshooting, software modifications, and system upgrades. The Controls Engineer works closely with Operations, Maintenance, Engineering, and contractors to support safe, reliable plant operation while developing expertise in power plant controls and automation systems.

Your scope of responsibility as Controls Engineer, DCS includes the following primary functions:

  • Assist in the maintenance, troubleshooting, programming, and optimization of the plant's DCS, turbine control systems, SCADA systems, PLCs, HMIs, industrial networks, field instrumentation, and automation infrastructure.
  • Support the investigation and resolution of control system, instrumentation, communications, and hardware/software issues under the guidance of senior engineering staff.
  • Assist with the development, configuration, testing, and commissioning of control logic modifications, software enhancements, and automation improvements.
  • Support the maintenance and testing of interfaces between plant control systems, turbine controls, PLCs, historians, environmental systems, and third-party applications.
  • Assist with the operation, maintenance, and compliance activities associated with Continuous Emissions Monitoring Systems (CEMS) and related reporting systems.
  • Support the maintenance and enhancement of operator graphics, alarm management systems, plant historians, data archiving systems, and performance monitoring tools.
  • Provide day-to-day technical support to Operations and Maintenance personnel regarding control system functionality and troubleshooting activities.
  • Participate in control system upgrades, software migrations, lifecycle replacement projects, and automation improvement initiatives.
  • Analyze plant and control system data to identify equipment issues, performance trends, and opportunities for operational improvement.
  • Assist with industrial control system cybersecurity activities, including backups, user access management, disaster recovery planning, and network maintenance.
  • Support the review, testing, and implementation of OEM software updates, firmware revisions, technical bulletins, and control system modifications.
  • Participate in planned and forced outage activities, including testing, commissioning, troubleshooting, startup support, and system validation.
  • Assist with Root Cause Analyses (RCA), event investigations, and reliability improvement initiatives related to control and automation systems.
  • Maintain control system documentation, configuration records, network drawings, operating procedures, and technical specifications while supporting coordination with OEMs, contractors, and service providers.
  • Perform other duties and special projects as assigned to support the safe, efficient, and reliable operation of the facility.

NAES Safe

Safety is a core value at NAES, and as a condition of employment, all employees are expected to remain mentally alert and work safely at all times. Employees must also adhere to all safety warnings and posted signs while on company property. Additionally, they are required to follow all NAES safety rules and procedures. Adherence to these safety responsibilities is one of the key factors in the evaluation of each employee’s performance.

Working Relationships

The Controls Engineer, DCS reports to the Maintenance Manager and works closely with the Operations Manager, Maintenance Manager, Compliance Manager, and Administrative Supervisor to support the safe, reliable, and efficient operation of the facility. This position maintains a collaborative relationship with NAES Corporate Engineering Support Services and provides technical support to Operations and Maintenance personnel on control system and regulatory-related matters.

Physical Requirements and Working Conditions

Physical requirements include standing for extended periods of time, climbing stairs and ladders, working from elevated platforms and walkways at varying heights, and routinely lifting up to 50 pounds.

Power plant environment that may involve entering confined spaces, crawling through narrow areas, and handling hazardous materials, with exposure to fumes, extreme temperatures, and noise. Work may include high heat near equipment and varying outdoor weather conditions.

Some duties may require the use of protective equipment, which can include hard hats, safety glasses, and eye protection, air masks/respirators, ear protection, chemical suits, flame-resistant clothing (FRC), hot gloves, high-voltage protective gear, and fall protection. Fit testing for respirators may be required. Strict smoking restrictions apply in and around the facility.

Fitness for Duty

All personnel will participate in the Fitness for Duty Program, which includes a post-offer physical examination, drug screening, and post-employment random drug screening.

Work Schedule

The Controls Engineer, DCS works a standard Monday to Friday day shift schedule, ensuring consistent plant operation and support during regular business hours. This position will occasionally necessitate extended working hours and flexible shifts as needed, including weekends and holidays, in response to schedules, workload demands, and plant conditions. Periodic callouts or “On call” status may also be required.

Some travel may be involved to participate in Manager, Owner, User Group, or other offsite meetings.

Compensation

This position offers an annual base salary ranging from $120,000 to $140,000 and includes eligibility for an annual performance bonus.

Professional Expertise & Qualifications

We are seeking an entry level Controls Engineer, DCS with a strong interest in power plant controls and automation, a commitment to safety and continuous learning, and the desire to develop technical expertise in a power generation environment.

  • Associate's degree, technical diploma, or equivalent military training in Electrical Engineering, Electronics Engineering Technology, Instrumentation & Controls, Automation Technology, Computer Engineering, or a related technical discipline is required. A Bachelor's degree in Engineering is preferred.
  • One (1) to two (2) years of experience supporting Distributed Control Systems (DCS), Programmable Logic Controllers (PLCs), SCADA systems, industrial automation systems, or related technologies through employment, internships, co-op assignments, military service, or academic projects.
  • Basic knowledge of DCS platforms, PLCs, HMIs, industrial networks, and communication protocols such as Modbus, Ethernet/IP, OPC, or similar technologies. Experience with ABB Advant systems is a plus.
  • Familiarity with troubleshooting control systems, instrumentation, communications, hardware, software, and automation-related issues in an industrial or technical environment.
  • Exposure to control logic development, software configuration, system testing, commissioning activities, or automation projects through academic, internship, or professional experience.
  • Basic understanding of industrial networking, cybersecurity concepts, system backups, and network troubleshooting principles.
  • Knowledge of power generation, industrial processes, instrumentation, or control systems, with combined cycle power plant experience considered an advantage.
  • Ability to analyze technical data, interpret engineering drawings and control narratives, and develop practical solutions under the guidance of senior engineering personnel.
  • Strong organizational, communication, and interpersonal skills with the ability to learn quickly, manage priorities, meet deadlines, and collaborate effectively across all levels of the organization.
  • Must possess a valid, unrestricted U.S. driver’s license and ensure it remains in good standing at all times.

About NAES

NAES Corporation is a leading provider of operations, maintenance, and engineering services for energy facilities. We have built a reputation as a reliable partner for clients in North America and internationally, offering services across the power generation, oil and gas, and renewable energy sectors. Our growing family of companies allows us to address the entire life cycle of power generation and other industrial plants.

NAES is committed to fostering a diverse and inclusive workplace. We prioritize selecting employees based on merit and competence, seeking individuals of the highest quality, without regard to race, color, religion, national origin, gender, gender identity, sexual orientation, age, disability, military status, or affiliation protected under USERRA, or any other form of discrimination prohibited by applicable local, state, and federal law.


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