Arc Flash Training

Ritter Safety offers premier Arc Flash Training in our NFPA 70E Training Class, covering all the requirements for arc flash training in the 2024 Edition of NFPA 70E.

NFPA 70E Electrical Safety & Arc Flash Training

Ritter Safety delivers top-tier arc flash training through our industry-leading NFPA 70E courses, offered in 4-hour and 8-hour sessions for qualified workers and 2-hour sessions for unqualified workers.

We provide flexible training nationwide, both on-site and online, accommodating first, second, and third shifts to fit any schedule.

Arc flash training is crucial for protecting your employees from serious injuries, including burns, eye and ear damage, and blunt force trauma.

Our training ensures your compliance with OSHA 29 CFR 1910 Subpart S, which mandates protection from shock and arc flash hazards.

NFPA 70E, developed at OSHA’s request, is the industry-consensus standard and gives the clear, actionable steps employers must take protect their workforce from these hazards.

Not sure if you need arc flash training?  You can speak with one of our experts today and find out!

 

Who Needs Arc Flash Training?

Any employee working on energized circuits of 50 volts or more is considered a qualified worker and must receive NFPA 70E Arc Flash & Electrical Safety Training. A simple way to determine who needs this training is to ask, “Who in my facility uses a meter or testing device?” or “Who in my facility is removing or opening electrical cabinets & panels?”

Employees interacting with electrical equipment are typically exposed to arc flash hazards or if they are performing testing or diagnostic work they will encounter circuits with 50 volts or higher. These employees are required by OSHA and NFPA 70E to undergo proper training. Additionally, supervisors overseeing these workers must also be trained.

Typical participants in our qualified & unqualified worker training include:

8-Hour | 4-Hour NFPA 70E Training for Qualified Workers

  • Maintenance Personnel
    • Maintenance Managers
    • Electricians
    • Mechanics
    • PLC Programmers & Technicians
    • Reliability Technicians
    • HVAC Technicians
    • Welders
  • Plant Engineers
  • Plant Managers
  • EHS Personnel & Safety Managers
  • Risk Managers

2-Hour NFPA 70E Training for Unqualified Workers

  • Operators
  • Laborers
  • Line Workers
  • Sanitation Staff
  • Shift Supervisors
  • Quality Assurance Personnel
  • Machinist
  • Welders

Arc Flash Training With Ritter Safety

When you train with Ritter Safety, you’re getting more than just arc flash training—you’re partnering with a dedicated consultant who specializes in NFPA 70E.

Your trainer is not only an expert instructor but also a trusted advisor, available to answer your questions before, during, and long after your training session. Our consultants are fully committed to your safety and compliance, providing prompt, reliable support 365 days a year, beginning the moment you book your first class.

Arc flash training is a fundamental component of our NFPA 70E course, where we blend practical insights with the most up-to-date regulatory requirements. This ensures your team is prepared to manage real-world arc flash hazards with confidence and expertise.

Our NFPA 70E training covers all aspects of electrical safety, including detailed arc flash training. Participants will not only gain a thorough understanding of arc flash risks but also learn practical methods to mitigate these hazards, ensuring a safer and more efficient workplace.

Our NFPA 70E Training covers the following topics:

  • What is Arc Flash?: Understanding the causes of arc flash and the variables involved, including heat, light, sound, and pressure.
  • OSHA & NFPA 70E Arc Flash PPE Requirements: When arc flash PPE is required according to OSHA and NFPA 70E.
  • How to Perform an Arc Flash Risk Assessment: How to conduct a proper risk assessment to identify and minimize arc flash hazards.
  • Arc Flash PPE Selection Methods: Choosing arc flash PPE using either the Incident Energy Analysis Method or PPE Category Method.
  • Inspection, Care, and Maintenance of Arc Flash PPE: The requirements for inspecting, maintaining, and caring for arc flash PPE after use.
  • Practical Arc Flash PPE Recommendations for Enhanced Safety:  PPE recommendations that highly advisable but not required.

By choosing Ritter Safety for your arc flash training, you’re investing in more than just compliance—you’re empowering your workforce with the knowledge and tools they need to stay safe in even the most hazardous environments.

On-Site Arc Flash Training

Onsite Training Arc Flash and NFPA 70E Training Nationwide

We come to you!  Our trainers can come on-site and deliver live, hands-on training for your team anywhere in the nation. Training can be paired with audits to ensure documented compliance.

Available 24 hours a day including first, second, and third shift.

Online Arc Flash Training

Ritter Safety Training Online NFPA 70E Training

Enjoy live online training!  You can book our open-enrollment training offered each month at 8:00 AM – 4:00 PM Central Time or get a custom online class just for your team.

Custom dates are available for first, second, and third shift.

Ritter Safety Arc Flash Training Classes

Ritter Safety offers NFPA 70E training classes tailored to fit the needs of your workforce, whether they are qualified electrical workers or non-electrical staff.

Our 8-Hour NFPA 70E Training Class is ideal for new hires, those who haven’t trained in the past, and EHS or Risk Managers. It provides detailed instruction on arc flash hazards, PPE, and electrical safety practices.

The 4-Hour NFPA 70E Training Class is a streamlined version, serving as an annual refresher for qualified workers, covering the essentials to maintain compliance.

For non-electrical staff, like operators and line workers, our 2-Hour NFPA 70E Training Class offers a focused overview of key safety concepts, ensuring they understand how to navigate environments with electrical hazards.

Each class is designed to equip your team with the knowledge needed to work safely and confidently.

Ritter Safety’s 8-Hour NFPA 70E Arc Flash & Electrical Safety Training Course

Our 8-hour NFPA 70E training is our most in-depth course, tailored for new hires or employees who haven’t received training in the past. This comprehensive class covers a wide range of topics, including arc flash and shock hazards, PPE selection and maintenance, and Lockout/Tagout (LOTO) procedures.

It’s designed not only for qualified workers but also for EHS managers and Risk Managers who require a thorough understanding of electrical safety standards and practical application in the workplace.

8 HR ARC FLASH & ELECTRICAL SAFETY TRAINING - Qualified Workers

• Overview and explanation of Arc Flash and Shock Hazards.
• Real-world, practical examples that illustrate the need and effectiveness of NFPA 70E.
• Relationship and differences between NFPA 70E, NFPA 70B, NFPA 70 & OSHA.
• General Electrical Safety Requirements for all employees.
• OSHA and NFPA 70E Justification for Energized Work.
• Arc Flash Labeling Requirements including Explanation and Proper Interpretation.
• Shock Hazard Risk Assessments.
• Limited and Restricted Approach Boundaries for Shock.
• Detailed instruction regarding the use and care of, rubber insulated, voltage-rated gloves.
• Insulated tools and other voltage-rated materials.
• Arc Flash Hazards.
• Arc Flash Boundaries.
• Arc Flash Hazards with covers on and/or doors closed vs. covers off and/or doors open.
• Arc Flash Risk Assessment Procedures.
• PPE Selection for when the Incident Energy Analysis has been performed.
• PPE Selection for when the PPE Category Method must be used.
• Proper care and maintenance of Arc Flash PPE.
• New Job Safety Plan Requirements and recommendations for implementation.
• Job Briefing Requirements.
• Energized Electrical Work Permits (EEWP).
• Host Employer & Contract Employer Responsibilities.
• Lockout / Tagout (LOTO) & Creating an Electrically Safe Work Condition.
• NFPA 70E Requirements regarding proper Lockout / Tagout.
• LOTO Process and Procedures.
• Simple LOTO vs. Complex LOTO.
• Electrical Equipment Maintenance Requirements.
• Electrical Safety Program Requirements.

Ritter Safety’s 4-Hour NFPA 70E Arc Flash & Electrical Safety Training Course

Our 4-hour NFPA 70E training is a more concise version of our comprehensive 8-hour course, designed to cover all the essential information required for qualified workers. While it doesn’t delve as deeply into each topic, it effectively provides the critical knowledge needed for electrical safety.

This class is typically used as an annual refresher by our clients and is often paired with Qualified Worker Audits to ensure ongoing compliance. Topics include arc flash and shock hazards, PPE selection and care, making it an efficient yet thorough option for maintaining safety standards.

4 HR ARC FLASH & ELECTRICAL SAFETY TRAINING - Qualified Workers

• Overview and explanation of Arc Flash and Shock Hazards.
• Real-world, practical examples that illustrate the need and effectiveness of NFPA 70E.
• Relationship and differences between NFPA 70E, NFPA 70B, NFPA 70 & OSHA.
• General Electrical Safety Requirements for all employees.
• OSHA and NFPA 70E Justification for Energized Work.
• Arc Flash Labeling Requirements including Explanation and Proper Interpretation.
• Shock Hazard Risk Assessments.
• Limited and Restricted Approach Boundaries for Shock.
• Detailed instruction regarding the use and care of, rubber insulated, voltage-rated gloves.
• Insulated tools and other voltage-rated materials.
• Arc Flash Hazards.
• Arc Flash Boundaries.
• Arc Flash Hazards with covers on and/or doors closed vs. covers off and/or doors open.
• Arc Flash Risk Assessment Procedures.
• PPE Selection for when the Incident Energy Analysis has been performed.
• PPE Selection for when the PPE Category Method must be used.
• Proper care and maintenance of Arc Flash PPE.
• New Job Safety Plan Requirements and recommendations for implementation.
• Job Briefing Requirements.
• Energized Electrical Work Permits (EEWP).
• Host Employer & Contract Employer Responsibilities.

Ritter Safety’s 2-Hour NFPA 70E Arc Flash & Electrical Safety Training Course

Our 2-hour NFPA 70E training is designed specifically for non-electrical staff who may still be exposed to electrical hazards, including operators, line workers, production staff, and shift supervisors.  This course provides an overview of electrical safety concepts, including arc flash and shock hazards, electrical equipment labeling, and the definitions and restrictions that apply to unqualified personnel.

Even those not doing any electrical work must understand how to safely navigate environments where electrical hazards are present.

2 HR ARC FLASH & ELECTRICAL SAFETY TRAINING - Unqualified Workers

• Overview and explanation of Arc Flash and Shock Hazards.
• Explanation of Electrical Equipment Labeling Information.
• General Electrical Safety Requirements for all employees.
• Explanation of Shock and Arc Flash Boundaries.
• Qualified Person and Unqualified Person defined.
• Limitations and Restrictions for Unqualified Persons.

Online NFPA 70E Training Dates

8-Hour Training
4-Hour Training

Ritter Safety Arc Flash Training Topics

  • Arc Flash Overview and Explanation
  • Arc Flash PPE Requirements for OSHA & NFPA 70E
  • Arc Flash Risk Assessment
  • Arc Flash PPE Selection Methods
  • Arc Flash PPE Inspection, Care, and Maintenance
  • Practical Arc Flash PPE Recommendations for Enhanced Safety
Choose Ritter Safety for Arc Flash Training

Overview and Explanation of Arc Flash

Our NFPA 70E Training provides an overview of arc flash, emphasizing the importance of understanding these risks to maintain a safe work environment. In this section, participants will have a clear understanding of what an arc flash is, the dangers it presents.

Arc Flash Overview and Explanation

In our NFPA 70E Training, we provide a detailed examination of arc flash hazards, ensuring that participants fully understand the risks and the necessary precautions to take when working with or around electrical systems.  Here is what we cover.

Understanding Arc Flash and Arc Blast
  • Participants learn that an arc flash is the intense light and heat generated during an electrical fault, while the arc blast is the resulting pressure wave.
The Four Variables

We dive into the four variables that make arc flash so dangerous:

  1. Heat:  We discuss how temperatures in an arc flash can reach between 5,000 and 35,000 °F  and the potential severe burns, ignition of clothing, and melting of metals.
  2. Light:  The training covers the intense light produced during an arc flash and its potential to cause eye injuries and ignite nearby materials.
  3. Sound:  We address the powerful acoustic wave generated by the arc blast, which can lead to hearing damage and contribute to the overall danger.
  4. Pressure:  Participants learn about the force of the pressure wave from an arc blast, capable of throwing workers, rupturing panels, and turning debris into projectiles.
Common Causes of Arc Flash
  • The training includes a thorough review of what can trigger an arc flash, such as voltage transients, accidental contact with live components, or improper work practices.  We emphasize the unpredictability and severity of these incidents, which can release immense energy in just microseconds.
Impact and Potential Injuries
  • We cover the types of injuries and damage that can result from arc flash incidents, including severe burns, hearing loss, and injuries from flying debris. The training underscores the importance of being prepared for these risks.

Arc Flash PPE Requirements for OSHA & NFPA 70E

In our training, we explain the integration of OSHA’s mandatory requirements with NFPA 70E’s detailed guidance. Helping employees understand their legal how to implement protective measures effectively.

Our course equips participants with the knowledge to create a safe work environment that meets OSHA and NFPA 70E requirements.

Arc Flash PPE Requirements for OSHA & NFPA 70E

In our NFPA 70E training, we cover the requirements for Personal Protective Equipment (PPE) as required by OSHA and NFPA 70E.  Understanding the connection between OSHA’s regulations and NFPA 70E’s guidelines is essential for both compliance and safety in environments where electrical hazards are present.

OSHA PPE Requirements

OSHA sets the foundational requirements for electrical safety, emphasizing what must be done to protect workers:

  • Personal Protective Equipment (PPE) Mandates (1910.335):  OSHA requires that employees exposed to potential electrical hazards must be provided with, and must use, appropriate PPE for the specific risks and the parts of the body that need protection.
  • Maintenance and Inspection:  PPE must be kept in a safe, reliable condition and inspected regularly, as specified by OSHA standards.
  • Head, Eye, and Face Protection:  Nonconductive head protection is required where there’s a danger of electric shock or burns. Additionally, eye and face protection must be used when there’s a risk of injury from electric arcs, flashes, or flying objects.
  • Insulated Tools and Equipment:  Insulated tools and equipment are required when working near exposed energized conductors to prevent accidental contact.
NFPA 70E PPE Guidelines

While OSHA outlines the “shall,” NFPA 70E provides the “how”—detailing the implementation of protective measures:

  • General PPE Requirements (130.7): NFPA 70E specifies that employees must use protective equipment designed for the specific electrical hazard and the part of the body at risk. Arc Flash PPE must be worn when working within the arc flash boundary.
  • Care and Maintenance: NFPA 70E explains how to maintain PPE in a safe, clean, and reliable condition. The requirements for PPE being inspected before each use.

Specific PPE Requirements

  • Head, Face, Neck, and Chin Protection: Nonconductive headgear and face protection must be worn whenever there’s a danger from electric shock or arc flash. This includes arc-rated hoods and face shields when working within the arc flash boundary.
  • Eye Protection: Protective eyewear is required under face shields or hoods, ensuring that eyes are protected from arc flash and flying debris.
  • Body Protection: Arc-rated clothing is essential when there’s a risk of exposure to arc flash above certain energy levels. This clothing must cover all parts of the body and be properly fitted to allow movement without compromising protection.
  • Hand and Arm Protection: Rubber insulating gloves with protectors are required for electric shock protection, with additional guidelines for arc flash protection.
  • Foot Protection: Insulated or dielectric footwear is necessary when working in areas where there’s a risk of electric shock or arc flash.

How to do an Arc Flash Risk Assessment

In our NFPA 70E training, we provide detailed guidance on performing an arc flash risk assessment. This process involves several key components to ensure that all potential arc flash hazards are identified, evaluated, and mitigated effectively.

How to do an Arc Flash Risk Assessment

Identify Arc Flash Hazards

The first step in an arc flash risk assessment is to identify the presence of arc flash hazards in your work environment. This involves a thorough examination of electrical equipment and systems to determine where and how an arc flash could occur.

Estimate Likelihood and Severity

Next, the assessment must estimate both the likelihood of an arc flash event occurring and the potential severity of injury or damage to health. This estimate takes into account the design and condition of the electrical equipment, including the operating condition and the maintenance state of overcurrent protective devices.

Determine Protective Measures

Based on the likelihood and severity of potential arc flash events, additional protective measures may be required. These measures, selected according to the hierarchy of risk control, could include the implementation of specific safety-related work practices, establishing arc flash boundaries, and determining the appropriate PPE to be used within those boundaries.

Documentation

The results of the arc flash risk assessment must be documented. This documentation provides a record of the identified hazards, the analysis performed, and the protective measures implemented, ensuring compliance with safety standards and providing a reference for future assessments.

Establish Arc Flash Boundaries

The arc flash boundary is a critical concept defined as the distance at which the incident energy equals 1.2 cal/cm² (5 J/cm²). This boundary helps to determine the areas where specific protective measures and PPE are necessary to protect workers from the thermal effects of an arc flash.

Select Arc Flash PPE

Selecting the appropriate PPE for workers operating within the arc flash boundary is essential. Two methods are available for this selection: the incident energy analysis method and the arc flash PPE category method. The chosen method will guide the selection of arc-rated clothing and other protective gear based on the potential energy exposure during specific tasks.

Equipment Labeling

Finally, electrical equipment that is likely to require examination or maintenance while energized must be properly labeled. These labels should include critical information such as nominal system voltage, the arc flash boundary, and either the incident energy or the appropriate PPE category. Accurate labeling ensures that all personnel are aware of the potential hazards and the required safety measures.

Arc Flash PPE Selection Methods

We teach the two methods for selecting the appropriate Personal Protective Equipment (PPE) to protect against arc flash hazards. Understanding these methods is essential to ensure workers are properly protected by arc flash hazards.

Here’s a detailed look at the Incident Energy Analysis Method and the Arc Flash PPE Category Method:

What are the Arc Flash PPE Selection Methods?

1. Incident Energy Analysis Method

The Incident Energy Analysis Method is a detailed approach that calculates the incident energy at the working distance (18 inches in most cases).  Incident energy is defined as the amount of thermal energy (expressed in cal/cm²) generated during an electrical arc event.  This method requires an arc flash risk assessment to determine both the incident energy at the working distance and the arc flash boundary.

  • How it Works: The arc flash risk assessment calculates the incident energy, which guides the selection of PPE with an arc rating that meets or exceeds this energy level.  The arc flash boundary, defined by this energy, marks the distance within which appropriate PPE must be worn.
  • Advantages:  This method is highly accurate and specific to the equipment being assessed, often resulting in customized arc flash labels that simplify PPE selection and compliance. It ensures that the selected PPE matches the actual arc flash potential, providing optimal protection for workers.
  • Disadvantages:  The Incident Energy Analysis Method can be costly and time-consuming due to the need for detailed data collection and calculations.  However, its precision and effectiveness make it the superior choice for ensuring safety.
2. Arc Flash PPE Category Method

The Arc Flash PPE Category Method is an alternative approach that uses standardized tables from NFPA 70E to estimate the arc flash risk based on known parameters such as maximum available fault currents, clearing times of overcurrent protective devices, and working distances.  This method is often used when an updated incident energy analysis is not available.

  • How it Works:  By referencing NFPA 70E tables, workers make an educated estimate of the arc flash potential and determine the appropriate arc flash PPE category and necessary protective gear.  This method provides a quick solution when specific electrical data is not available, making it a practical choice in certain situations.
  • Advantages: The primary advantage of the Arc Flash PPE Category Method is its applicability in situations where an updated incident energy analysis is not available. It allows for the estimation of arc flash risks and the selection of appropriate PPE based on standardized guidelines.
  • Disadvantages:  This method is less precise and often requires more PPE than necessary. There’s also a risk that the actual arc flash potential could exceed the PPE rating, potentially leaving workers under protected. Additionally, the PPE Category Method cannot be used if critical parameters, like fault current and clearing times, are unknown or don’t align with NFPA 70E tables.

Arc Flash PPE Inspection, Care, and Maintenance

Proper inspection, care, and maintenance of Arc Flash Personal Protective Equipment (PPE) are critical to the safety and effectiveness of the gear used by workers exposed to arc flash hazards.

In our NFPA 70E training, we cover the essential guidelines and best practices to maintain PPE in a safe, clean, and reliable condition, in accordance with manufacturer instructions and industry standards.

Arc Flash PPE Inspection, Care, and Maintenance

Inspection Requirements
  • Rubber Insulated Gloves:  Before each use, rubber insulated gloves must be inspected for any signs of damage.  This includes performing an air test to check for leaks or punctures and inspecting the leather outer layer for holes or contaminants.  Gloves must undergo periodic electrical testing every six months after first use, and they should be stored in a manner that preserves their integrity.Arc Flash
  • Shields and Suits: Arc flash shields should be inspected for cracks, and the fabric surrounding the shield must be checked for holes.  Arc-rated suits should be inspected for damage, including wear, pilling, and holes.  Any compromised gear must be replaced, as repairs may not maintain the original level of protection.
Care and Maintenance Practices
  • Storage:  PPE must be stored to avoid damage from environmental factors such as moisture, dust, or physical impacts.  Rubber gloves should not be crammed into storage bags to prevent deformation and loss of structural integrity.  Arc flash suits and other gear should be stored according to manufacturer recommendations.
  • Cleaning:  Arc-rated suits and uniforms must be laundered according to manufacturer guidelines.  Contaminated or improperly cleaned gear can lead to catastrophic failure during an arc flash event.  It is crucial to use the correct detergents, wash cycles, and temperatures to preserve the protective qualities of the material.
  • Maintenance of Arc-Rated Clothing:  Employees must ensure that their arc-rated clothing is free from holes, rips, and tears.  Such damage must be addressed promptly, but with caution—replacing the garment is often safer than repairing it, as repairs might not restore the original protection level.  Underlayers should be 100% cotton and covered fully by arc-rated material, and care should be taken not to use products like baby powder that can degrade rubber gloves.
Compliance and Responsibility

Employers are responsible for ensuring that PPE is maintained in a condition that guarantees safety. This includes establishing policies and procedures for the inspection, care, and maintenance of protective equipment in their electrical safety program. Both employers and employees must adhere to manufacturer instructions and consensus standards, such as ASTM F1449 and ASTM F2757, to ensure that PPE remains effective throughout its lifespan.

Fit and Proper Use

Arc flash PPE must fit properly to provide the intended protection. It should not be too tight or too loose, as this could compromise the air gap that provides thermal insulation. Employees must also avoid using rubber gloves without the protective leather outer, as this reduces the glove’s protection level by 1 class (example Class 0 to Class 00 or 1000 VAC to 500 VAC max use rating) and necessitates retesting.

Practical Arc Flash PPE Recommendations for Enhanced Safety & Compliance

When working in environments where there is a potential for arc flash, even at energy levels below 1.2 cal/cm², it’s essential to consider practical PPE recommendations that go beyond the minimum requirements.

While NFPA 70E does not require arc-rated protection below this threshold, taking extra precautions can significantly enhance safety and reduce the risk of injuries that, while not life-threatening, can still have serious consequences.

Practical Arc Flash PPE Recommendations for Enhanced Safety & Compliance

Exceeding Minimum Standards for Enhanced Safety

NFPA 70E Article 130.7(C)(6) mandates that employees wear arc-rated clothing wherever there is possible exposure to an electric arc flash above 1.2 cal/cm², as this level can cause a second-degree burn.

However, even when incident energy is below this threshold, it is prudent to consider additional protection.

The arc flash boundary is intended to protect you from second- and third-degree burns, but you can still receive first-degree burns and other injuries outside the boundary if you are not wearing arc-rated PPE.

This is why our recommendations go beyond the minimum requirements.  Simply not wearing a tinted arc-rated faceshield or your hearing protection can have consequences far beyond burns to the skin.  Eye injuries and hearing damage, are real risks, even at lower energy levels.

Hand Protection
  • Within the Restricted Approach Boundary for Shock:  Workers should wear rubber insulating gloves with leather protectors to guard against both shock and arc flash hazards.
  • Outside the Restricted Approach Boundary for Shock:  Arc-rated nitrile gloves, leather gloves, or rubber insulating gloves with leather protectors should be used to ensure adequate protection against arc flash hazards.
Head and Body Protection
  • Helmet, Safety Glasses, and Arc-Rated Face Shield:  Wearing safety glasses alone isn’t always enough. It’s crucial to wear an arc-rated faceshield as well, even for exposures under 1.2 cal/cm².  A relatively “small” arc flash can still produce a flash bright enough to cause eye injuries similar to arc eye.  There have been cases where employees exposed to less than 1.2 cal have suffered eye injuries that caused pain and kept them out of work for several days, even though they experienced no burns.
  • Hearing Protection: An arc flash under 1.2 cal/cm² can still be loud enough to cause ear injuries. Employees have experienced hearing damage and balance issues due to the loud noise of an arc flash, leading to missed work from inflammation and fluid buildup in the ear.

What are Some of the Key Benefits of Arc Flash Training?

  • Comprehensive Coverage: Dive deep into NFPA 70E’s 2024 Edition, ensuring all personnel are well-informed.
  • Nationwide Availability: Whether on-site or online, our training is accessible anywhere in the U.S.
  • Flexibility for All Shifts: We accommodate any shift, ensuring minimal disruption to your operations.
  • Practical, Hands-On Learning: Whether in-person or virtual, immerse in realistic scenarios for effective learning.
  • Guided by Experts: Our instructors, whether live or online, are industry-leading professionals.
  • Stay Updated: Continuously equip your team with the most recent safety regulations and best practices.
  • Cost-Efficiency: Minimal downtime with flexible training schedules and formats.

  • Flexible Training Modes:
    • On-Site Training:  We come to you, allowing your entire team to benefit without the hassle of travel.
    • Virtual Training: Engage in top-notch training sessions from the comfort of your location, without the need for physical presence.
  • For Everyone in Your Team:
    • Supervisors & Safety Staff:  Enhance oversight capabilities and safety protocols.
    • Unqualified Workers: Boost safety awareness and minimize risks.
    • Engineers: Integrate safety principles in the design and operation phases.
    • Plant Managers: Uphold plant-wide compliance and safety standards.
    • Electricians: Ensure hands-on safety and best practices while handling electrical equipment.
    • Technicians & Maintenance Staff: Elevate understanding of safety precautions and maintain equipment compliantly.

Why Choose Ritter Safety for Your Arc Flash Training?

Ritter Safety is not just another name in the realm of Arc Flash training; we’re a benchmark for excellence. Having trained some of America’s most prestigious corporations, our reputation and expertise are unmatched in the industry. Beyond our broad client portfolio, what truly distinguishes us from competitors is our profound mastery of NFPA 70E compliance. We don’t just teach; we ensure understanding and real-world application.

Additionally, our commitment to flexible scheduling, tailored to accommodate any shift, guarantees that businesses experience the least amount of downtime and minimal production interruptions. Partner with Ritter Safety and invest in training that’s both comprehensive and convenient.

Ritter Safety Nationwide Arc Flash Training