Real time info important for ih monitoring industrial hygiene iot ehs today gas 69

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For some of us, the board game Clue, or one of its many variants, was our first foray into the world of investigation. Participants move around the board, gathering facts about a recent murder and eliminating possibilities, to piece together a conclusion like "Ms. Peacock killed Colonel Mustard in the study with a candlestick." This beloved, somewhat ominous children’s game highlights the importance of answering the big five questions when a critical event occurs: Who? What? When? Where? Why?

For gas-related hazards, these challenges especially are prevalent, given their ephemeral nature and the existing technology used to detect and gather data about them. gas you up It also assumes that a gas hazard is reported in the first place. Many gas detection programs rely on self-reporting. Workers are trained to stop what they are doing when an alarm occurs and report it to their supervisor. On the surface, this simple approach ensures that all necessary information is collected first-hand and allows teams to get to "why" almost immediately. It is a bit like getting to the right answer in Clue on your first turn.

Others neglected to report an incident because they felt like they might get in trouble. electricity japan Some were focused on getting their jobs done – "I just need one more minute to wrap up" – ignored the alarm or even turned the monitor off and then felt the ends justified the means when nothing bad happened. There are countless other reasons, behavioral and cultural, that stand in the way of a manual reporting program being effective. Without automating your gas detection program with docking stations or other means of data collection, you may be very successful at winning the game of Clue, but you only are playing the game 20 percent of the time. Docking Stations and Data Gathering

When docking stations are introduced, safety personnel typically are inundated with more data than ever before. The docking station ensures they’re playing 100 percent of the games of Clue they should be playing, but it leads them to begin with limited information, to work on many different games at the same time and to fill in the gaps. This is because of the differences between information provided by docking stations and what is gathered with manual reporting policies.

While portable gas detectors are great at recording basic information like "what" and "when" – "gas detector serial #1234 saw a high H2S alarm for five minutes last Friday at 9:14 a.m." – they are not always well equipped to tell you "who" and "where." In order to get the data in the first place, the gas detectors have to be returned to the docking stations by workers. electricity quotes by benjamin franklin This can happen hours, days or even months after an event has occurred.

These roadblocks can cause some employees to get discouraged and ignore the data coming from these systems completely. Still, many others have put the people and processes in place to manage these investigations such as working through the alerts coming in with the help of automated reports emailed to the appropriate people. SOPs encourage accountability and follow-up and a culture that drives incidents to closure. Industrial Scientific

It is not unusual to see unwanted behaviors and events drop drastically after data starts being looked at and actions are taken as a result. electricity 24 hours For example, when a steel plant moves from 90 (gas monitor used without a bump test) alerts in their first month of reporting to less than five alerts per month on average for the next two years or an oil refinery goes from 24 gas alarms in its annual turnaround to two the following year. There are large payoffs for those who play the game of Clue all the way to the end.

The people who are most successful at understanding their data have taken advantage of the latest gas detection technologies. These technologies improve the data coming in when an alarm is first reported, helping people get to "why" sooner. To solve for "who," many people assign gas detectors permanently to people and track that information manually either in spreadsheets or sign-out sheets or by setting it within the gas detectors’ software. Some monitors dynamically can even be reassigned to users in the field thanks to NFC or RFID tags, allowing for user names to be added to instrument data even if the instruments randomly are being grabbed from a shared pool of equipment. gas dryer vs electric dryer These methods quickly can turn information like "gas detector serial #1234 saw a high H2S alarm for five minutes last Friday at 9:14 a.m.," to "John Smith’s gas detector saw a high H2S alarm for five minutes last Friday at 9:14 a.m." This information puts you one step closer to winning the game. Solving the Question of Where

The question of "where" has been more difficult to solve. Most industrial hygienists or safety professionals rely on follow-up conversations. "John, where were you last Friday at 9:14 a.m.?" It sometimes is hard for workers to remember where they were, let alone the context of the situation. Some portable gas detectors can be equipped with GPS, which can provide a fairly exact location, though GPS is a notorious power hog and can limit the runtime of instruments. It also does not work well indoors or in complex, industrial environments.

Some gas detectors offer a less-precise – but in some ways more actionable – method to determine location in the form of freeform text like "Tank 1" or "Coker, Northeast Corner." These location assignments manually can be entered into instruments’ software, set by workers dynamically via NFIC or RFID tags or automatically set based on an instrument’s proximity to Bluetooth-enabled beacons. The game of Clue now can start with a lot of cards already on the table. "John Smith’s gas detector saw a high H2S alarm at Tank 1 for five minutes last Friday at 9:14 a.m." Getting to "why" becomes much faster.

Even with all of this information, there still are additional areas in which gas detection manufacturers need to innovate to help safety leaders get to "why" faster. One is providing more contextual information to help confirm if a "what" even occurred and a game of Clue needs to be played in the first place. When we get an alert that "John Smith’s gas detector saw a high H2S alarm," that doesn’t necessarily mean that John was exposed to a toxic gas or engaged in risky behavior. gas 37 weeks pregnant Perhaps he was safe and there is no action to take. Maybe he was wearing an SCBA and performing according to company standards and best practices. He may have been taking a remote sample as part of a confined space entry. John actually could have been in danger, signaling that administrative or engineering controls need to be put in place.

A final way that the industry is working to get to "why" faster is by getting data to users in real time, turning "last Friday at 9:14 a.m." to "just now." Wireless, portable gas detectors have been around for over a decade. Recently, more and more manufacturers are offering wireless solutions, and the technology is becoming easier and cheaper to implement. It is very possible for safety personnel today to get an alert on their laptops, smartphones, control panels, etc., saying, "John Smith’s gas detector is seeing a high H2S alarm at Tank 1" and act immediately to eliminate undue risks.