Within industrial settings such as for example petroleum plants, nuclear reactor facilities and industrial chemical processing plants, there’s a important element in common: Strict and meticulous temperature monitoring within vital areas of their operations. Vigilant temperature monitoring is paramount to the safe and successful functioning of those entities.
The job of monitoring and managing temperatures inside an industrial setting may be of grave importance. This really is particularly true in a situation where faulty temperature readings or failure to properly control temperatures can result in injuries, fatalities and in some cases, catastrophes benchtop temperature chamber. Unfortunately, we’ve been made aware of the disastrous results when errors or negligence occurs within situations where temperature monitoring is critical. And the aforementioned industries give us some examples.
The method of refining oil, for example, requires that the many hydrocarbons within crude oil be separated and distilled. This demands that different temperatures be achieved for every hydrocarbon to be “boiled out” of the crude oil separately. To be able to effectively perform this function, extremely accurate temperature measuring is essential. This, of course, is dependent upon precision temperature sensors that send readings to reliable temperature indicator equipment on a constant basis.
When temperature monitoring mistakes occur through this industry, it could be deadly. Such was the case in California in 1997 where an explosion and fire occurred at an oil refinery there, killing one and injuring 46. One of many main failures cited throughout the investigation was, “poor design of the control room and temperature monitoring systems.”
Nuclear Power Plants
Among several critical temperature-sensitive aspects in just a nuclear power facility is to keep the core stable. Temperatures must be continuously monitored, and cooling rods are used for temperature control. These rods are lowered or raised to the core to decrease its temperature when there is any threat at all that it might overheat. If a reactor should overheat, a meltdown would occur and this could be catastrophic. A thermocouple is really a temperature measuring device, and specially-insulated thermocouples are accustomed to measure reactor temperatures.
We’ve learned from the 1986 Chernobyl case in Russia and the 1979 Three Mile Island case near Harrisburg, Pa., how devastating the consequences may be when mishaps occur within nuclear plants. The significance of responsible temperature monitoring within these kinds of facilities is totally critical.
Chemical Processing Plants
Chemical plants depend on precise temperature gauging not merely in the act of developing chemicals, but also throughout their storage. It’s common knowledge that chemicals – some independently and some when blended with others – are extremely volatile and ignitable given the proper circumstances. These types of processing plants operate in a series of chambers or “units,” which can be connected by pipes. In many cases, each different unit is assigned a certain temperature in order to successfully mix and produce chemical compounds.
In 2002 At the First Chemical Corporation plant in Pascagoula, Miss., an explosion in a chemical distillation tower injured three workers and caused numerous other fires to erupt. Once more, the main reason cited for the mishap was “plant operators didn’t monitor the tower’s internal temperature,” which had climbed well beyond the maximum allowable limit.
There are numerous more samples of calamities that might have been avoided had better temperature monitoring controls been established. But the message is clear: Great care and vigilance are needed in the monitoring of systems and controls within industrial settings. Lives are at stake. And in some cases, such as for example Chernobyl, generations are at stake.