How Carbon Monoxide Detectors Work?

How Carbon Monoxide Detectors Work?

Carbon monoxide poisoning kills hundreds of people and hospitalizes tens of thousands each year in the United States. Luckily, we have carbon monoxide detectors that warn us before we're in danger.

Carbon monoxide is a gas byproduct of incomplete combustion that can seep into dangerous levels from damaged or abused heating systems. Defective stoves, stoves, vehicles or portable generators running indoors are all potential culprits for carbon monoxide poisoning. Carbon monoxide poisoning kills hundreds of people and hospitalizes tens of thousands each year in the United States. Luckily, we have carbon monoxide detectors that warn us before we're in danger.

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Carbon monoxide detectors are designed to measure the concentration of carbon monoxide in the air (in parts per million, or ppm) and sound an alarm if enough of the chemical is around long enough to become a problem. If detected over the course of a few hours, carbon monoxide at 70 ppm will trigger an alarm. At the other end of the spectrum, dangerous concentrations above 400 ppm will do the same after just a few minutes.

In any case, the alarms should provide enough notice so that people nearby can escape before symptoms, such as nausea, headache or loss of consciousness, take hold. And safety standards exist to ensure that gas detectors reliably sound their alarms at the right time.

There are several types of detector available, each employing a different method to gauge carbon monoxide levels.

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But how exactly can these devices detect an invisible killer?

The most common type of gas detector gets the job done through electrochemical gas sensors composed of electrodes submerged in an electrically conductive solution called an electrolyte. When carbon monoxide enters the gas-permeable compartment that houses the sensor, a chemical reaction occurs that causes the electrical current passing through the electrolyte to surge. The specific amount by which the current increases tells the detector the concentration of the carbon monoxide molecules.

Metal oxide sensors operate along similar lines, but instead of a chemical solution these sensors rely on circuitry. As carbon monoxide meets a sensor's chip, it lowers the material’s resistance to the flow of electricity to a degree that depends on the concentration of the chemical present in the air.

A different approach takes inspiration from hemoglobin, a protein found in blood cells that delivers oxygen to your tissues (but can be easily hijacked by carbon monoxide). When oxygen or carbon dioxide chemically attaches to hemoglobin in your lungs, the protein’s color brightens noticeably, causing your blood to shift from a dark to cherry red color. Some carbon monoxide detectors mimic this effect with a gel that changes color as it soaks up the deadly chemical. A light sensor tracks the gel’s color, which indicates the level of carbon monoxide nearby.

sensor detector

While there are several kinds of technologies to choose from, any functioning detector could greatly cut down on the risk of carbon monoxide poisoning. The National Fire Protection Association (NFPA) recommends installing detectors per the manufacturer’s instructions in a central location outside each room where people sleep and on every floor of the home. Local laws, codes or standards may have additional requirements to look out for as well.

All sensors have a limited lifetime, which will vary between manufactures. Carbon monoxide detectors that meet the newest standards in the U.S. will signal when they have reached the end of their useful life and need to be replaced.  

Attacking the problem at the source could go a long way in staving off carbon monoxide too. Vehicle engines should not be run in a closed garage or in any indoor space. And portable generators, which can expel more than a hundred times more carbon monoxide than a car exhaust, should be run outdoors and as far away from windows and doors as possible, even in times of weather emergencies.