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The oil and gas industry is an essential sector that provides the energy the world needs and powers global economies. However, securing that energy can carry a high risk of occupational hazards.

The fatality rate in oil and gas extraction has been seven times higher than the average for US workers (CDC) and has around 100 deaths per year and an additional 1,400 non-fatal incidents. But even those high numbers may be underreported (Energy News Network).

Upstream and downstream

Take a closer look at upstream rig counts, the four major US oil fields are in the PADD 3 region and accounted for 74% of the 758 active drilling rigs in the US in March 2023.

On the downstream side, of the 17.3 million barrels per day of refinery capacity in the US, 44% of that is located relatively close to the Gulf Coast, including 8 of the 10 largest refineries. Midstream is answering the demand with 169 projects starting between 2021 and 2025 (Pipeline & Gas Journal). This means a heavy majority of oil and gas workers at risk in the US are in the Gulf Coast / PADD 3 regions.

safety challenges

Rig crews, well operators, tanker truck drivers, and many others, work with dangerous machinery

These oil and gas workers face considerable safety challenges every day. Many work alone or in remote locations.

For example, rig crews, well operators, tanker truck drivers, and many others, work with dangerous machinery and around deadly gases while separated from others.

top five hazards

In addition to gas exposure concerns, downstream facility workers encounter elevated risks during shutdowns and turnarounds, evacuations, and confined space entries.

Layering in the unpredictable Gulf Coast weather further increases the possibility of incidents. In this article, Blackline Safety will review the top five hazards for Gulf Coast oil and gas workers and how to mitigate them with connected safety technology.

1) Exposure to Hazardous Gases or Unsafe Oxygen Environments

These gases are highly flammable, and in the case of H2S, can be deadly if inhaled at high concentrations

Gas detection is a critical safety requirement in the oil and gas industry, as many of the operations involve the handling of combustible gases, such as hydrogen sulfide (H2S), methane (CH4), and propane (C3H4).

These gases are highly flammable, and in the case of H2S, can be deadly if inhaled at high concentrations.

Oxygen deficiencies

Another high-risk atmospheric condition, often coupled with the presence of H2S, comes from the displacement or consumption of oxygen. Various conditions and processes can cause oxygen deficiencies such as oxidation from rusting, consumption from open flames, or displacement by other gases.

Highly explosive atmospheres can also occur in oxygen-enriched environments during refining processes or various situations like leaky torch hoses. That’s why oil and gas operations must use connected gas detectors that can deliver:

  • Real-time visibility -Traditional gas detectors only alert workers in the immediate vicinity. With connected gas detectors, monitoring personnel will automatically be notified of a gas exposure with real-time gas levels and the location so they can initiate safety procedures.
  •  Compliance management – Improperly maintained gas detectors are a challenge for oil and gas industry workers, which can lead to false alarms and inaccurate readings. To prevent this, it’s essential to properly calibrate and bump test gas detection equipment on a regular schedule. Connected gas detectors allow safety managers to visualize and verify the real-time compliance of the entire fleet. This information can indicate potential risks and encourages worker accountability to bump and calibrate regularly.
  •  Reporting and analytics – Comprehensive reporting and data analysis assist with device compliance management and highlight trends to help improve safety measures. For example, a low-level gas reading consistently shown at the same location can indicate a slow leak or faulty equipment, indicating areas for maintenance crews to conduct repairs before a safety incident occurs.

2) Confined Space Entries (CSEs)

CSEs like those in storage tanks, mud pits, reserve pits, and excavated areas around wells present a variety of risks that can result in serious injury or death.

Consider the two main types of hazards when evaluating worker safety during confined space entries:

a) Atmospheric hazards:

Connected gas detectors, like the G7 with pump, can be set to a pre-entry mode to measure gas levels

Confined spaces can contain toxic or flammable gases such as methane, H2S, or CO, which can be deadly if inhaled. These gases can accumulate due to poor ventilation, leaks from equipment, or the breakdown of chemical compounds.

Connected gas detectors, like the G7 with pump, can be set to a pre-entry mode to measure gas levels before entering a confined space and then switched to diffusion mode to protect the worker while completing the necessary work. 

  • G6 single-gas detector

Contractors will also often use a personal monitor, like the G6 single-gas detector, for continuous monitoring of the space following entry.

Also, consider the benefits of personal gas detectors and area monitors with long battery life so the CSE work can be conducted over extended periods without having to swap out batteries or equipment. 

b) Physical hazards:

In addition to atmospheric hazards, the cramped and dark nature of these spaces makes them difficult to navigate which can lead to slips, trips, and falls. Layer in the hot and humid climate of the Gulf Coast and it makes the work environment even more challenging.

Should an entry worker suffer an injury, it can be difficult to signal for help, but connected gas detectors with fall and no-motion detection can automatically notify monitoring personnel. 

  • Connected devices

Connected devices also enable two-way communication to rapidly convey details of an incident

Connected devices also enable two-way communication to rapidly convey details of an incident.

Whether from a dangerous atmosphere or the physical hazards within a CSE, with connected safety devices, workers can feel confident knowing their well-being is being monitored should an event occur. 

3) Shutdowns and Turnarounds

During a shutdown or turnaround at a Gulf Coast oil or gas facility, there are additional hazards that HSE personnel and workers must be aware of to make sure safety is always a top priority. This includes significant added risks such as:

  • Oxygen displacement and flammable or toxic gases are released during the process of shutting down and restarting equipment for maintenance or repairs.
  •  Additional confined space entries under a short timeline.
  •  Contractors new to the site who are unfamiliar with the facility and its specific safety procedures.
  •  Fatigue from longer hours and compressed timelines can put workers at greater risk.

Depending on the work being conducted, supervisors and workers must know the potential hazards faced and be equipped with proper gas detection devices, whether that be a single-gas detector, like the Blackline’s G6, or a multi-gas detector, like the G7, to deliver live data on gas readings and the ability to quickly take emergency action if needed.

4) Evacuation Management

Evacuation Management is a big task for any oil and gas facility regardless of location

Evacuation Management is a big task for any oil and gas facility regardless of location, but the Gulf Coast has added challenges due to the region's susceptibility to hurricanes and tropical storms. When a major storm is forecasted, oil and gas companies must make quick decisions about whether to evacuate and shut down operations to ensure worker safety.

The Gulf Coast region is also vast and complex, with a high number of facilities spread across a large area. This can make it difficult to actively communicate with employees and know their location during an evacuation. 

Several benefits

Whether it be a weather hazard for the area or a more localized risk due to a detected atmospheric hazard, connected wearable devices with integrated GPS location technology offer several benefits:

a) Improved communications – The ability to send mass or targeted messages including real-time updates such as changing muster points.

b) Informed responses - Emergency responders will know: 

  • A missing worker’s precise location on an online map.
  • Details of the situation such as gas levels, fall detection, or if a worker manually called for help.

c) Faster drills and evacuations 

  • GPS location visibility eliminates the need for time-consuming manual headcounts.
  •  If a worker is missing, their exact location is known (no search party required), saving critical seconds if they need assistance. 

d) Future improvements - Analyzing evacuation routes and times from drills can provide valuable insights to improve future emergency preparedness.

Overall, the use of connected wearable devices with GPS location technology can greatly improve the efficiency and effectiveness of evacuation management and drills.

5) Lone Worker and Transportation Hazards

Lone workers are those who work alone or in remote locations without immediate access

A significant challenge for Gulf Coast oil and gas workers is lone worker safety. Lone workers are those who work alone or in remote locations without immediate access to colleagues or emergency services.

In the oil and gas industry, this can include well-testers, pipeline inspectors, and maintenance workers but also refinery workers who may be temporarily out of direct contact with others.

Benefits

Lone worker safety can be increased exponentially with connected safety devices that offer:

  • Enhanced connectivity - Due to the remote location of some rigs and facilities, the lack of reliable cellular coverage is an additional risk factor. In these environments, safety devices with satellite connectivity, like the G7x, ensure workers always have an accessible lifeline for help should they need it, for example, if they are stranded, or if they slip, trip, or fall and suffer an injury.
  •  Integrated location technology - Devices with GPS provide location information so a worker’s exact coordinates can be known if they need assistance. 
  • Emergency SOS latch - can be pulled by the device wearer to call for help in the event of an emergency.
  •  Sensors for fall and no-motion detection - Detect if a device wearer slips, trips, or falls and can send an automatic alert to notify monitoring personnel.
  •  Missed check-ins - Devices identify when a team member misses a scheduled wellness confirmation.
  •  Two-way communications - Text messaging and two-way voice communications (like a walkie-talkie) ensure workers are always connected.

Vehicle accidents or being struck by an object or equipment accounts for two-thirds of worker fatalities (CDC). All oil and gas workers need an easy way to call for help should an incident occur, regardless of their location.

Summary

Oil and gas workers on the Gulf Coast face numerous safety challenges every day on their worksites. From lone workers who can experience slips, trips, and falls to incidents with large equipment or vehicles without an easy option to call for help. In addition, many processes such as CSE shutdowns and turnarounds can present hazardous gases or unsafe oxygen environments.

 The weather events in the Gulf Coast region can add another layer of complexity to incident management and evacuations. Connected safety devices can help mitigate these issues by providing real-time insight, reliable communication, and comprehensive data analytics and reporting optimizing situations like evacuations and future-proofing the overall safety of a worksite.

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