Chloramine is the byproduct of the interaction of chlorine in water. The best way to measure and control and measure for Chloramine is to measure chlorine as it is produced by Chloramine. At high concentrations, chlorine causes pulmonary swelling and it is fatal. Sensors do not have a "capable radius" or "area of coverage" In order for a sensor to detect a gas concentration, the gas must migrate from the source location to the sensor location. As this distance from the source to the sensor increases the migration time also increases as does the time to detection and time to alarm.
As a general guide we suggest minimum spacing of sq. The LEL is the minimum concentration of combustible gas in a space at which combustion will occur given a source of ignition. Common combustible gases include methane natural gas , propane, butane, hydrogen.
The most common combustible gas is Methane. It is colorless and odorless, non-poisonous and burns with a pale, faintly luminous flame. Sensors do not have a "capable radius" or "area of coverage" In order for a sensor to detect a gas concentration; the gas must migrate from the source location to the sensor location.
Hydrogen is the most abundant element in the universe. It is colorless, odorless and tasteless gas; flammable when mixed with air, oxygen, chlorine, etc. It has no specific toxic action. In high concentrations it can act as a simple as Asphyxiant.
H2S is a by-product of oil and gas production operations. It is contained within gas or crude oil underground. When a well that produces oil or gas contains hydrogen sulfide, it is call a sour well, when it doesn't it is called a sweet well. Hydrogen sulfide is also released during the decaying of organic materials such as in sewage treatment plants. It is a toxic gas that is extremely poisonous in very small quantities. Although the odor can be detected at a very low concentration, the sense of smell is lost in just a few minutes after exposure, due to olfactory fatigue.
This makes it impossible to sense dangerous concentrations. Inhaling H2S at a few hundred ppm may result in acute poisoning, and although the gas is an irritant, the systemic effects from absorption of H2S in the blood stream overshadow the irritant effects. When the amount of gas absorbed by the blood exceeds that which is readily oxidized, systemic poisoning results, with a general action on the nervous system. Within seconds and without warning unconsciousness and collapse can occur.
For that reason many persons have lost their lives attempting to save a victim who has collapsed from exposure. Colorless, odorless, non-poisonous, flammable gas. Burns with a pale, faintly luminous flame. Form explosive mixtures with air.
Air containing less that 5. Methane is also a simple asphyxiant. A second purification process may be necessary if ultra-high purity levels are required. The main industrial application of oxygen is combustion.
Many materials that do not normally burn in air will burn in oxygen so mixing oxygen with air greatly enhances combustion efficiency. High-purity oxygen is used in laboratories, process-control operations and metal analysis instruments. Used for water treatment, oxygen is an effective way of purifying waste water and treating sewage.
Other applications include sealing glass ampoules in the pharmaceutical industry, oxygenation of water for aquaculture and modified atmosphere packaging MAP mixtures. Since gases are used in a wide range of applications, the appropriate storage mode varies. Pressure, volume and flow rate are all key factors in determining the most appropriate and cost effective gas supply mode.
Compressed gas cylinders have a limited volume of gas present but are easy to move to where they are required. For customers requiring even larger quantities of gases, we offer customized on-site solutions.
We can assist with selecting reliable, safe and efficient gas handling equipment including flow devices, gas delivery systems, regulators, purifiers, filters and related equipment and supplies. FaB has over members with a focus on food, beverage, ingredient, equipment and packaging makers. Our goal is to provide innovative solutions, high quality product and service you can trust. Let us help you innovate and write your success story. Argon Ar Argon is a colorless, odorless, non-reactive, inert gas.
However, in enclosed spaces, like homes, it can sometimes accumulate to high levels, which can be a risk to the health of you and your family. Studies show that it's the second-leading cause of lung cancer after cigarettes. All homes and buildings have some radon; the question is how much? The good news is that once a house is tested, lowering the radon levels is fairly easy.
There are a number of ways to reduce radon in your home but one of the most common ways is by installing an active soil depressurization system, which uses a pipe and exhaust fan to release the gas. This prevents radon from building up in the home.
Health Canada scientists Mathieu Brossard, Renato Falcomer and Jeff Whyte were curious about whether or not Canada's cold climate would affect these systems, which typically involve a pipe that goes from under the basement, up through the house and out the roof.
One of the biggest applications for Argon is as a shielding gas, as it can protect the work area from contamination, reactions with other gases, and the oxidizing effects of the atmosphere.
In addition to welding, cutting, and metallurgy, Argon is used to fill lightbulbs and window panels. Carbon Dioxide. This colourless, odourless gas is actually slightly toxic. It does not burn or support combustion but it is very soluble in water where it forms carbonic acid, giving us those fizzy bubbles in soda.
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