Water Treatment: The Need For Gas Detection In Detecting Chlorine

Water utility companies help provide clean water for drinking, bathing, and industrial and commercial uses. Wastewater treatment plants and sewage systems help keep our waterways clean and sanitary. Throughout the water industry, the risk of gas exposure and gas-associated hazards are considerable. Harmful gases can be found in water tanks, service reservoirs, pumping wells, treatment units, chemical storage and handling areas, sumps, sewers, overflows, boreholes, and manholes.

What Is Chlorine and Why Is It Dangerous

Chlorine (Cl2) gas appears yellow green in colour, used to sterilise drinking water. However, most chlorine is used in the chemical industry with typical applications including water treatment as well as within the plastics and cleaning agents. Chlorine gas can be recognised by its pungent, irritating odour, which is like the odour of bleach. The strong smell may provide adequate warning to people that they are exposed. Cl2 itself is not flammable, but it can react explosively or form flammable compounds with other chemicals such as turpentine and ammonia.

Chlorine gas can be recognised by its pungent, irritating odour, which is like the odour of bleach. The strong smell may provide adequate warning to people that they are exposed. Chlorine is toxic and if inhaled or drunk in concentrated quantities can prove fatal. If chlorine gas is released into the air, people may be exposed through their skin, eyes or through inhalation. Chlorine is not combustible however can react with most combustibles which poses a fire and explosion risk. It also reacts violently with organic compounds such as ammonia and hydrogen, causing potential fire and explosion.

What is Chlorine used for

Water chlorination began in Sweden during the 18th century with the purpose to remove odours from water. This method continued to be used solely to remove odours from water until 1890 when chlorine was identified as an effective substance for disinfection purposes. Chlorine was first used for disinfection purposes in Great Britain in the early 1900’s which over the next century chlorination became the more favoured method used for water treatment and is now used for water treatment in most countries worldwide.

Chlorination is a method that can disinfect water with high levels of microorganisms where either chlorine or substance that contain chlorine is used to oxidise and disinfect the water. Different processes can be used to achieve safe levels of chlorine in drinking water to prevent against waterborne diseases.

Why Do I Need To Detect Chlorine

Chlorine, being denser than air, tends to disperse throughout low-lying zones in poorly ventilated or stagnant areas. Although non-flammable by itself, chlorine can become explosive when in contact with substances like ammonia, hydrogen, natural gas, and turpentine.

The reaction of the human body to chlorine depends on several factors; the concentration of chlorine present in air, the duration and frequency of exposure. Effects are also dependant on the health of an individual and the environmental conditions during exposure. For example, when small amounts of chlorine are breathed in during short time periods, this can affect the respirational system. Other effects vary from coughing and chest pains, to fluid accumulation in the lungs, skin and eye irritations. To note, these effects do not take place under natural conditions.

Our solution

The use of a chlorine gas detector provides detection and measurement of this substance in the air to prevent any accidents. Equipped with an electrochemical chlorine sensor, a fixed, or portable, single gas or multi gas Cl2 detector will monitor chlorine concentration in the ambient air. We have a wide range of gas detection products to help you meet the demands of the water treatment industry.

Fixed gas detectors are ideal to monitor and alert water treatment plant managers and workers to the presence of all the major gas hazards. The fixed gas detectors can be permanently positioned inside water tanks, sewage systems, and any other areas that present a high risk of gas exposure.

Portable gas detectors are lightweight and robust wearable gas detection devices. The portable gas detectors sound and signal an alert to workers when gas levels are reaching dangerous concentrations, allowing action to be taken. Our Gasman, and Gas-Pro portables have reliable chlorine sensor options, for single gas monitoring and multi-gas monitoring.

Control panels can be applied to coordinate numerous fixed gas detection devices and provide a trigger for alarm systems.

For more information about gas detection within water and water treatment, or to explore more of Crowcon’s gas detection range, please get in touch.

An Introduction to the Marine Industry

The marine sector is a global industry and is wide ranging in terms of its applications and different types of vessels including FPSO vessels, ferries and submarines. 

The type of gas hazards that will be present, and subsequently the gas detection requirements, are heavily dependent on the application and the type of marine vessel being used. In this blog we’ll take a look at some of the most common gas hazards within the marine industry and in which applications they are most likely to occur. 

Floating Production, Storage, Offloading Units and Tankers 

Floating production, storage and offloading (FPSO) units, which are used in the production, processing and storage of oil, are home to many potential gas hazards. 

Firstly, there is the risk of fire and explosion hazards, which can lead to catastrophic damage and loss of life.  Combustible gas risks that may be present include methane, hydrogen, propane, LPG, solvents and gasoline fumes among others. Due to this risk, flammable gas detection is essential on FPSO vessels.  

FPSO units also have confined spaces in the form of inverted tanks or voids, meaning oxygen detectors are a must for these areas to protect from the risks of oxygen depletion which can cause mental confusion, nausea, weakness and in extreme cases loss of consciousness and death. 

Ferries 

Whilst ferries may not be home to as many gas hazards as other vessels, there are certainly still some to be aware of. On vehicle carrying ferries, for example, there may be a large build-up of emissions from vehicle exhausts which contain harmful gases such as carbon monoxide and nitrogen dioxide. Both gases are capable of causing damage to human health, causing issues such as nausea, confusion and disorientation, inflammation of the airways and increased vulnerability to respiratory infection. 

Submarines 

Submarines may be used for a variety of purposes including salvage and exploration operations, marine science and facility inspection and maintenance. On these vessels there may be a requirement for hydrogen detection in battery storage rooms. Whilst hydrogen is a non-toxic gas, if it builds up in environments without sufficient airflow it can displace oxygen in the air leading to risk of oxygen depletion. 

Our solutions 

Gas detection can be provided in both fixed and portable forms. Our portable gas detectors protect people against a wide range of gas hazards, and include T4xGas-ProT4 and Gas-Pro TK. Our fixed gas detectors are used where reliability, dependability and lack of false alarms are instrumental to efficient and effective protection of assets and areas. Now available through Crowcon, the Sensitron SMART S-MS MED fixed detector has been designed specifically for use in marine environments. The SMART S-MS MED is fully marine certified by Lloyd’s Register in accordance with MED/3.54 Regulation whilst also being SIL-2 certified. Also available is the Multiscan++MED control panel, also MED and SIL-2 certified, able to manage and monitor up to 64 gas detectors. 

To find out more on the gas hazards in the marine sector visit our industry page for more information.