OSHA Gas Monitor Calibration Requirements - Safety Standards
Posted by Premier Safety on Apr 1st 2024
In the industrial world, workers depend on cutting-edge technology like gas meters and monitors to keep them safe every day. Understanding and abiding by gas monitor and OSHA oxygen sensor requirements isn’t just a matter of compliance, it can mean the difference between life and death. For industries where toxic vapor dangers are part of the job, gas monitoring equipment is both a safety measure and a regulatory requirement. The maritime and construction sectors in particular are congruent with frequent exposure to hazardous gases.
As your single source for safety facility solutions, we at Premiere Safety are here to guide you through the maze of OSHA gas monitor calibration requirements. From gas meters to testing procedures, these tools are a lifeline to alert personnel about leaks or spills before they get out of hand. This article is your straightforward guide to understanding OSHA’s standards to keep your organization healthy and compliant. A safer work environment starts with partners like us!
OSHA Standards for Gas Monitor Calibration
While OSHA doesn’t have specific regulations for gas detector calibration, it has released guidelines for calibrating and testing portable gas monitors. These types of gas detectors are frequently used in confined spaces. All four sensors in a typical portable gas monitor-oxygen, combustible gases, hydrogen sulfide, and carbon monoxide-all have limitations that lead to a decline in their accuracy. Combustible detectors used to detect explosive gases, like butane, tend to age more quickly than other monitors. Once poisoned by combustible gases, they are no longer accurate, falling “out of” calibration.
While this isn’t possible for all teams, OSHA recommends calibrating your multi-gas and single-gas detectors before each use. It’s important to note that calibration testing is necessary when your monitor has been dropped, damaged, or left sitting for extended periods. High gas concentrations, extreme temperatures, or electrical shocks can easily leave the device only partially operational. A more practical approach is to follow manufacturer’s guidelines on when to calibrate your equipment.
Specific OSHA Standards Relevant to Gas Monitoring
There are specific standards OSHA requires to be met for Permit-Required Confined Spaces as well as Hazardous Waste Operations and Emergency Response. These standards apply to gas monitoring in confined spaces like tanks, vaults, manholes, and pipelines. They also pertain to emergencies where there is an uncontrolled release of a hazardous substance.
Let’s examine these standards in more detail.
29 CFR 1910.146 - Permit-Required Confined Spaces
This standard pertains to employees in general industry (excluding agriculture, construction, or shipyards). It states that atmospheric testing must be conducted prior to worker entry into confined spaces, determining if hazardous conditions exist. Prevention and mitigation of potentially dangerous situations is the goal behind this standard.
29 CFR 1910.120 - Hazardous Waste Operations and Emergency Response
This standard relates to workers handling hazardous waste and emergency clean-up. It provides employers, emergency response workers, and others potentially exposed to hazardous substances training to improve health and safety in these scenarios. This regulation also seeks to reduce workplace injuries and illnesses that can occur from exposure to hazardous substances. Utilizing the right type of gas monitoring equipment is critical to remain compliant with this standard.
OSHA Recommendations vs. Requirements
It's essential to distinguish between OSHA's recommendations and hard requirements. Some are suggested for enhancing safety, while others carry the backing of the law. Those who aren’t in compliance are subject to penalties and fines from governing agencies. Understanding this difference is key in prioritizing your compliance efforts.
Here’s a quick reference breakdown of the differences.
| OSHA Recommendations | OSHA Requirements |
| Purpose: Prevent workplace injuries, illnesses, and deaths. | Purpose: Also called standards or regulations, they serve as criteria to measure whether employers are in compliance with the OSHA Act. |
| Goal: Alleviate suffering and financial hardship these events cause for workers, families, and employers. | Goal: To ensure workplace safety with requirements, or regulations, that carry the power of the law. |
| Subject to Penalties or Fines? No. | Subject to Penalties or Fines? Yes. |
Updates and Changes in OSHA Standards
OSHA updates its standards frequently, but the changes don’t come at regular intervals. Changing legal code is a complicated and time-consuming process, so when standards do change, they can create serious waves across industries. When OSHA changes a regulation, it sets a timetable for implementation. The agency usually allows months, sometimes years, for companies to adjust to the new rules. However, if an update is significant enough, it often requires quick action from employers. Check OSHA’s online bulletins often so your business is prepared ( not surprised) when standards change.
Gas Monitor Calibration Requirements
If you expect to be protected by your equipment, you must set aside the time to maintain it. It’s the same principle as rotating your car tires regularly. The good news is that gas detector calibration procedures aren’t typically complicated, you just have to make it a priority. A few minutes and a few button presses are all it takes. Calibration should occur in environmental conditions that are the same or similar to the actual workplace conditions.
Let’s look at what to expect with various gas detector calibration requirements.
Types of Gas Monitors and Their Calibration Needs
Single-Gas Monitors
Highly accurate, single gas monitors like ours are designed to detect a particular gas. Place them in areas where a specific quantity of gas might lurk, like kitchens, garages, or basements. To maintain their life-saving sensitivity, it’s recommended to calibrate single gas monitors at least once monthly.
Multi-Gas Monitors
This versatile detection equipment, also called combination gas monitors, incorporate numerous technologies to sense multiple gases simultaneously. Our multi-gas monitors have varied calibration processes based on the quantity of gas to be monitored. Refer to the manufacturer guidelines for recommended calibration frequency.
Calibration Frequency and Best Practices
Routine Calibration
While OSHA’s guidelines may differ, most manufacturers recommend bump testing before each day’s use and calibrating monthly. This helps ensure that your gas monitor performs accurately. If you neglect routine calibration on your gas monitors, you risk exposure to hazards like toxic gases or oxygen deficiency that could cost worker’s lives. Don’t chance it; make it a routine to calibrate your monitors based on both manufacturer reformations and the frequency at which you use them.
Event-Driven Calibration Needs
Say your co-worker borrows your brand-new gas detector for the day. On his way back to the warehouse, he drops it in the mud, clogging the sensor openings. If you bump-test the instrument the next day, the test will catch the problem and fail. A failed bump test calls for re-calibration. This is an event-driven calibration need. Sudden sensor response changes or exposure to acutely high gas concentrations also call for immediate calibration. As a rule of thumb, any time your detector is in an extreme environment or atmosphere, it’s best to calibrate it.
How to Implement OSHA Standards in Your Workplace
Knowledge is power when it comes to workplace safety. Post basic OSHA information for employees to see, and replace it when standards change. OSHA performs workplace inspections in some states, so create a habit of implementing self-inspections to make sure you’re up to code. Here are some other guidelines to implement.
Develop a Calibration Program
Broadly speaking, if you schedule it, you’ll do it. Develop a comprehensive program that includes calibration schedules, procedures, and personnel responsibilities for testing your equipment. Involve the entire team by regularly taking an inventory of your devices, provide the training necessary to calibrate them, and maintain documentation to mark when calibrations are complete.
Calibration Equipment and Tools
Keep an itemized list of the equipment needed to complete routine calibrations. These might include a test gas cylinder, regulator, gas tubing, flower meter, screwdriver, and protective equipment. Your tools will be specific to your chosen gas detectors. Always store the manufacturer’s guidelines in the same spot.
Outsourcing vs. In-House Calibration
Whether you outsource gas detector calibration or perform it internally depends on the size and demands of your organization. In-house calibration means you retain control over the process and quality assurance. However, for some companies, outsourcing it is well worth the cost due to the frequency in which their equipment must be tested. External calibration service providers often specialize in specific industries, from laboratory to construction. Ask us about our comprehensive calibration services here at Premiere Safety so you can focus on the big picture.
Manual Testing Procedures
In addition to in-house and outsourced calibration, there are other methods of manual testing you can implement. These methods are straightforward to ensure your gas detector is in ideal working condition. Let’s examine them now.
Visual Inspection
Always start with a visual once-over of your detector, checking for any signs of damage. You might notice cracks, dents, or wear that could impact its functionality and accuracy. Ensure the gas monitor’s casing is intact and all its fasteners are tight. Dirt, dust, or dried mud on the sensor could affect its ability to protect you, so keep it clean.
Bump Test
A bump test is a quick check to ensure your device responds to a gas concentration. We recommend performing a bump test before every use. Note that bump tests don’t adjust or check your monitor’s accuracy, only its functionality. It is simply exposed to a known concentration of gas, and the response is observed. While they are easier and faster, bump tests should not replace regular calibrations.
Full Calibration
While frequent monitor calibration can be a hassle, it’s too important to minimize. Improperly calibrated gas detectors can lead to dangerously inaccurate readings. According to OSHA, full calibration is a process where the worker “adjusts the instruments’ reading to coincide with a known concentration, or certain standard, of test gas.” The test gas used as calibration gas should always be certified with the NIST, or National Institute of Standards and Technology. Calibration not only ensures that your detector is functioning, but that it’s reading the level of test gas accurately.
Automated Testing Solutions
Docking stations are a commonly used automated system to test gas detectors. They can perform a variety of functions automatically, including bump testing, calibration, charging, and data downloading. When a gas detector is inserted into the docking station, it seamlessly checks its functionality and calibrates it if necessary. Consider the compatability of specific makes and models when shopping automated systems.
Sensor Functionality Testing
Similar to bump tests, function checks are used to confirm that gas can reach the sensor and that all instruments and alarms are functional on your gas monitor. These qualitative checks can be accomplished in a number of ways. Before beginning these tests, ensure that your gas detector is zero-calibrated with clean air or nitrogen. This sets the sensor at a baseline free from target gas.
Oxygen Sensor Tests
These tests ensure that the oxygen sensors within gas detectors react accurately to varied oxygen levels. Areas like confined spaces that are prone to oxygen deficiency are important to monitor. Your detector will typically trigger an alarm when the oxygen level drops below 19.5 percent volume.
Flammable Gas Sensor Tests
These tests should be performed in well-ventilated areas or under fume hoods to contain potential flames. Flammable gas sensor tests involve exposing your detector to a safe level of gas to verify that it is operational and the alarm functions. This test is crucial before entering industrial zones or laboratories where flammable gases are a risk.
Toxic Gas Sensor Tests
Arguably one of the most important tests, this procedure involves exposing the gas detector to a predetermined concentration of toxic gas in a controlled manner. Toxic gas sensor tests require precision. Once it detects a known concentration of test gas, the alarm will sound. Those working in mining, oil and gas, and chemical industries should be familiar with this testing protocol.
FAQs:
What is gas monitor calibration?
A full calibration is required when a bump test fails to meet the acceptable tolerable range. According to OSHA, gas monitor calibration refers to “an instrument’s measuring accuracy relative to a known traceable concentration of test gas.” Calibration is the process where workers adjust a gas monitor’s readings to align with known gas concentrations. This helps ensure its accuracy in detecting hazardous gases.
How Often Does a Gas Monitor Need to Be Calibrated?
The frequency of calibration checks vary by the specific type of gas monitor. OSHA recommends that operators conduct checks on portable gas monitors daily or even hourly depending on the level of concern in a given air environment. Depending on how frequently equipment is used, you might run a full calibration every thirty days or every four to six months. Base your calibration schedule on your manufacturer or safety organization guidelines and specific workplace conditions.
How Do You Calibrate a Gas Monitor?
Calibration processes vary by gas model, so refer to the manufacturer’s specific guidelines. Generally speaking, begin the process by connecting the regulator to the calibration gas cylinder. Then attach the airtight clip to the gas detector. Connect the sampling hose to the clip, and make sure the flow of the gas follows the direction of the clip. Turn on the gas detector while opening the calibration regulator. A beep will sound, followed by an internal alarm set off by the flowing gases, indicating that it is functioning and safe to use.
How Long Does Monitor Calibration Last?
The period of time that your calibration remains accurate depends on the gas monitor type, level of usage, and exposure to gases. Electrochemical gas monitors tend to “drift” over time and require bump testing every three to six months. Infrared gas sensors don’t tend to drift as often and typically need calibration every six months. Keep a routine calibration schedule and follow the manufacturer’s guidelines as a best practice.
Keeping You Calibrated and Compliant
With the potential for hazardous gases lurking almost everywhere in industrial spaces, accurate gas detection is a must. Implementing OSHA gas monitor requirements is a cornerstone of workplace safety. These standards not only keep your workers safe, they also protect you as the employer by minimizing the risk everyone incurs. Premiere Safety is dedicated to helping organizations like yours navigate OSHA gas detection requirements with a range of gas detector calibration solutions. With proper testing, our products ensure that your atmospheric results are accurate and your workspaces compliant. Contact us with your questions, and let’s partner together to continue what we do best; ensure worker safety.
