Prevention is Better than Cure: The Use of Gas Analyzer in Industrial Gas Leak Detection

Prevention is Better than Cure: The Use of Gas Analyzer in Industrial Gas Leak Detection

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Sharon Ye

Technical Sales - Energy & Environment

Content

Gas leakage is a common but potentially dangerous problem in modern industrial production. Whether it is petrochemical, pharmaceutical, food processing, or metallurgical industries, they all involve the use of a variety of industrial gases, such as methane, ammonia, nitrogen, hydrogen, oxygen, and so on. Leakage of these gases will not only cause damage to production equipment, but may also threaten the safety of employees, pollute the environment, and even lead to serious economic losses. Therefore, the detection and control of industrial gas leakage has become an important part of enterprise safety management. As a kind of precise detection equipment, a gas analyzer plays an indispensable role in the detection of industrial gas leakage.

Gas Leak Detection

The importance of gas leakage detection in the industrial field cannot be ignored. Whether it is petrochemical, natural gas extraction, metallurgical manufacturing, or pharmaceutical, food processing, and other industries, the use of gas is a common element of production, and gas leakage brought about by the safety hazards and potential losses is also the management of the enterprise must be highly concerned about the problem. Specifically, the necessity of gas leakage detection can be elaborated from the following key aspects.

Gas leakage may lead to serious safety accidents and even cause casualties and major property losses. In industrial production, many gases are characterized by flammability, explosiveness, and high toxicity, and if leaks are not detected and dealt with promptly, the consequences may be very serious.

  • Explosion Risks from Combustible Gas Leaks 
    In the petrochemical and natural gas industries, common gases such as methane, ethylene, and hydrogen are highly flammable. Even a trace amount of gas leakage can cause an explosion 
    once it mixes with oxygen in the air to reach the explosion limit (usually when the gas concentration reaches a certain percentage of the range) and when it encounters an ignition source such as a spark or high temperature. For example, a leak in a natural gas pipeline that is not detected in time may result in a large explosion that threatens the safety of the production facility and the surrounding environment.
  • Poisoning Risks of Toxic Gas Leaks 
    Certain gases such as carbon monoxide, ammonia, hydrogen sulfide, etc. are highly toxic. Prolonged exposure to high concentrations of toxic gases may result in poisoning of workers due to inhalation of the gases, which can lead to respiratory difficulties, dizziness, and other symptoms, or death in severe cases. For example, hydrogen sulfide is a common industrial waste gas, highly toxic and causes olfactory paralysis, low concentrations of leakage can still smell rotten eggs, but high concentrations of human olfactory sense will quickly fail, and can not be detected by smell, and extremely dangerous.
  • Hidden Risks of Asphyxiating Gases 
    Some non-toxic, odorless gases such as nitrogen, argon, and other inert gases, although non-toxic to humans in themselves, leakage in confined spaces will displace oxygen, resulting in a lower level of oxygen in the air, which may cause asphyxiation due to a lack of oxygen for workers if they work in such an environment. Leakage of such gases is usually not easily detected and is therefore more dangerous, especially during confined space operations such as vessel cleaning and pipeline maintenance.

Gas leaks are not only a safety issue but can also result in significant economic losses. The economic loss can be reflected in the following aspects:

  • Waste of production raw materials 
    Industrial gases are often expensive for the production of raw materials, such as natural gas and hydrogen. Leaks mean that these valuable resources are wasted, leading to increased production costs. Especially in large-scale production, small leaks that are not detected in time can cumulatively result in significant material waste.
  • Equipment Damage and Downtime Losses 
    Gas leaks often corrode equipment or cause it to operate in harsh environments, resulting in equipment damage or even failure. In addition to this, leaks can trigger emergency shutdowns of production, resulting in significant economic losses. Equipment repairs, production losses during downtime, and production stoppages due to accidents will have a direct impact on the company’s economic performance.
  • Legal and Compensation Risks 
    Gas leakage accidents that cause environmental pollution, injuries or deaths, or affect the surrounding residents may expose companies to high levels of legal action and liability. For example, the leakage of certain toxic gases may lead to health damage to the residents around the plant, and the enterprise will not only need to pay compensation, but may also face huge fines from the regulatory authorities, or even be ordered to suspend production and rectify the situation. In such cases, companies will face very high economic pressure and reputational damage.

The leakage of many gases during industrial production not only jeopardizes human health and safety but also causes serious pollution to the environment. With the continuous improvement of environmental regulations and public awareness of environmental protection, the environmental problems caused by industrial gas leakage are becoming the focus of attention of governments and enterprises.

  • Greenhouse gas emissions 
    For example, the leakage of greenhouse gases such as carbon dioxide and methane contributes to global warming. Methane, as an important greenhouse gas, has a greenhouse effect more than 20 times that of carbon dioxide, so natural gas leaks not only result in wasted energy but also have a long-term impact on the global climate. As carbon emission standards become more stringent in various countries, companies must take effective control measures against gas leakage to minimize the negative impact of climate change.
  • Environmental Pollution by Hazardous Gases 
    Certain gases, such as nitrogen oxides and sulfur compounds, are major sources of air pollution. Once leaked into the atmosphere, these gases not only cause damage to the surrounding flora, fauna, and ecosystems but also pose a threat to the health of residents. Sulfides in the air can form acid rain, corrode buildings, and contaminate soil and water sources. Therefore, gas leakage detection helps to reduce environmental pollution and protect the ecological environment.
  • Regulatory Compliance and Environmental Pressure 
    Governments and environmental organizations are paying more and more attention to the problem of industrial pollution, and regulations on gas emissions are becoming increasingly stringent. Enterprises that do not meet regulatory requirements for gas leakage detection and control may be heavily fined by environmental authorities and may even face penalties such as suspension of production and rectification. In addition, companies need to take proactive environmental actions to enhance their corporate image, meet social responsibility and public expectations, and avoid damaging their reputation through environmental issues caused by gas leakage.

Gas analyzers are used in a variety of industries for a variety of applications, ranging from routine environmental testing to monitoring gas leaks in complex industrial environments.

Gas analyzers are used in a wide range of industries to monitor, detect, and prevent gas leaks. Each industry has different production environments, types of gases used, and risks of leakage, so the scenarios for using gas analyzers are also unique. The following is a detailed description of some typical industrial applications of gas analyzers, highlighting their important role in safety monitoring, environmental protection, and efficiency improvement.

The petrochemical industry is one of the industries where gas leakage accidents are frequent, and many of the gases it uses and produces have flammable, explosive and toxic properties, such as methane, ethylene, propylene, hydrogen sulfide and so on. Once these gases are leaked, it will seriously threaten the production safety and may cause serious accidents such as fire, explosion or toxic gas diffusion. Therefore, gas analyzers are crucial in the petrochemical industry and are mainly used in the following aspects:

Gas Leak Detection
  • Gas Leakage Monitoring of Storage Tanks, Pipelines and Equipment 
    In petrochemical plants, gas storage and transportation equipment such as storage tanks, reactors and pipelines are high-risk areas. These equipments work under high temperature, high pressure and corrosive environments all year round and are prone to physical wear and tear, corrosion and sealing failures that can lead to gas leakage. Gas analyzers can be installed around these equipments for 24/7 monitoring and real-time detection of changes in the concentration of combustible and toxic gases to detect leaks in time.
  • Area Detection of Explosive Gases 
    In petrochemical production installations, certain areas are typical areas where explosive gas mixtures are generated, such as cracking units, refinery installations and so on. These areas have complex environments and gas leaks are not easily detected. The use of gas analyzers can monitor these potentially explosive areas to prevent gas concentrations from exceeding the explosion limit.
  • Emergency Leak Detection and Leak Source Localization 
    In an emergency leak event, quickly locating the source of the leak is the key to preventing the accident from expanding and controlling the damage. Portable gas analyzers can be used at the scene of an accident to help operators quickly detect the type and concentration of the leaking gas, determine the extent and strength of the leak, and provide important information for emergency measures to reduce the risk of an accident.

The main gas produced and used in the natural gas industry is methane, which is a highly flammable gas with colorless and odorless properties that make its leakage difficult to detect visually. Gas analyzers are used in a wide range of applications in the natural gas industry, primarily in the extraction, transportation, and storage of natural gas. Image credit: Woodway Energy

Gas Leak Detection
  • Natural Gas Extraction and Production Monitoring 
    During natural gas extraction, the risk of methane gas leakage is high, especially in processes such as deep well drilling and oil and gas separation. Gas analyzers can be used to monitor gas concentrations around wellheads and production equipment, detecting abnormal methane gas leaks in time to avoid explosions.
  • Leak Detection in Long-Distance Natural Gas Pipelines 
    Natural gas pipeline transportation is an important part of the natural gas industry, and pipeline leaks not only waste resources but also pose a serious safety threat. Especially in long-distance high-pressure gas pipelines, gas leakage monitoring is especially critical. Ultrasonic gas analyzers can be used to monitor the ultrasonic signals emitted by gas leaks in pipelines to help detect leaks. Infrared gas analyzers provide early warning of leaks in pipelines by monitoring methane gas concentrations over long distances.
  • Safety monitoring of natural gas storage 
    Natural gas storage equipment (e.g. gas tanks, storage containers, etc.) works in a high-pressure environment where gas leakage is extremely dangerous. Gas analyzers can be installed around storage tanks to monitor changes in methane concentration in the air in real time, ensuring that if a leak occurs a quick alarm can be given and emergency measures taken to prevent an explosion.

Commonly used gases in the pharmaceutical and food processing industries include oxygen, nitrogen, ammonia, carbon dioxide, and others. These gases are used in processes such as sterilization, gas conditioning and packaging, fermentation, refrigeration, etc. Leakage can affect product quality, safety, and the hygienic conditions of the workshop environment. Gas analyzers are mainly used in these industries in the following areas:

Gas Leak Detection
  • Gas Leak Detection in Refrigeration Equipment 
    Ammonia and carbon dioxide are commonly used as refrigerants in food processing and storage. Ammonia is toxic and has a strong irritating odor when leaked, while carbon dioxide leaks reduce the oxygen concentration in the air, leading to a risk of asphyxiation. Gas analyzers can monitor ammonia and carbon dioxide concentrations in the air around refrigeration equipment in real time, ensuring a safe plant environment.
  • Gas monitoring in aseptic production environments 
    The pharmaceutical industry requires extremely high levels of cleanliness and sterility in production environments. Oxygen, nitrogen, and other gases are commonly used in cleaning and sterilizing processes in aseptic production. If a gas leaks, it can lead to environmental contamination or affect the quality of the drug product. Gas analyzers are used to detect changes in the concentration of gases in these production environments, to ensure that the ratio of gases in the production environment meets the required standards, and to safeguard product quality.
  • Gas concentration monitoring in gas-conditioned packaging 
    In food, gas-conditioned packaging, commonly used gases such as nitrogen and carbon dioxide are used to extend shelf life. Gas analyzers can monitor the gas mixing ratio during the packaging process in real-time to ensure that the concentration of the packaging gases meets the requirements, thus ensuring the freshness and quality of the product.

The gases involved in the metallurgical industry mainly include hydrogen, oxygen, nitrogen, etc. These gases are highly reactive at high temperatures, and leakage will lead to uncontrollable reactions or equipment failures, affecting production safety and product quality. The application of gas analyzers in the metallurgical industry includes the following aspects:

Gas Leak Detection
  • Gas Monitoring in High-Temperature Smelting 
    Oxygen and hydrogen are widely used in redox reactions during the smelting of steel and non-ferrous metals. If oxygen or hydrogen leaks, it will lead to an uncontrolled reaction, which may cause unstable furnace temperature or even trigger an explosion. Gas analyzers can monitor the gas concentration in the high-temperature smelting area in real-time, detect abnormal gas leaks in time, and ensure that the reaction takes place in a safe and controlled environment.
  • Monitoring Oxygen Concentration in Metallurgical Workshop 
    In high-temperature smelting, oxygen is used in large quantities, and too high or too low a concentration of oxygen in the air of the workshop may bring danger. Gas analyzers can monitor the oxygen concentration in the workshop to prevent fire, explosion and other accidents caused by oxygen leakage. At the same time, the analyzer can also ensure the reasonable use of oxygen and improve the efficiency of energy utilization.
  • Safe Detection of Hydrogen Production and Transportation 
    Hydrogen is widely used in the reduction process in the metallurgical industry. The flammability of hydrogen makes it extremely risky to explode in the event of a leak. Gas analyzers help to detect gas leaks in hydrogen production and transport pipelines, ensuring that the system operates within its normal operating range and preventing accidental leaks of hydrogen during the production process.

Gas analyzers also play an important role in industrial emissions and environmental protection. Many industries release harmful gases, such as nitrogen oxides, sulfur dioxide, and volatile organic compounds (VOCs), during the production process, which can pollute the atmosphere and affect public health. Therefore, gas analyzers are widely used in the field of exhaust gas emission monitoring and environmental protection.

Gas Leak Detection
  • Online monitoring of flue gas emissions 
    In the power, metallurgy, chemical industry, and other industries, the combustion process produces a large amount of sulfur dioxide, nitrogen oxides, and other gases. These exhaust gases are the main source of air pollution and must meet the emission standards of national and local environmental regulations. The gas analyzer can be installed on the emission chimney or exhaust gas treatment device to monitor the concentration and composition of the emitted gases in real-time to ensure that the enterprise’s emissions meet the environmental protection requirements and avoid polluting the environment.
  • Detection of Volatile Organic Compounds (VOCs) 
    VOCs are common hazardous gases in industrial production, which have a serious impact on human health and the environment. Gas analyzers can detect VOCs emissions from industrial production through photoionization (PID) or infrared technology, helping companies to monitor and reduce VOC emissions and ensure that they meet emission standards.
  • Air Quality Monitoring and Environmental Protection 
    In the vicinity of industrial areas, gas analyzers can also be used to monitor air quality and detect harmful gas leaks and emission anomalies promptly. For example, air quality monitoring stations around chemical plants and steel mills use gas analyzers to monitor the concentration of sulfur dioxide, nitrogen oxides, and other pollutants in the atmosphere to ensure that the local ambient air meets environmental protection standards and to safeguard the health and safety of surrounding residents.
sectorUse of gasesMain risksApplications for gas analyzersCommon types of gas analyzers
petrochemical industryMethane, ethylene, propylene, hydrogen sulfide, etc.Leakage of flammable, explosive and toxic gases leading to fire, explosion and poisoning– Monitoring of gas leaks from tanks, pipelines and equipment 
– Monitoring 
of gas concentrations in 
high explosive risk areas 
– Emergency leak detection and source localization
Catalytic Combustion Gas Analyzer, Infrared Gas Analyzer, Portable Gas Analyzer
Natural gas industrymethane CH4Methane leaks lead to explosion risk, gas waste– Monitoring of natural gas extraction and production 
– Detection of leaks in long-distance pipelines 
– Safety monitoring of natural gas storage facilities
Infrared gas analyzer, ultrasonic gas analyzer
Pharmaceutical and food processingNitrogen, oxygen, ammonia, carbon dioxide, etc.Toxic gas leakage affects health, gas ratio imbalance affects product quality– Leakage monitoring of refrigerated equipment 
– Gas monitoring in aseptic production environments 
– Detection of gas concentrations in gas-conditioned packaging
Electrochemical gas analyzers, infrared gas analyzers, PID (photoionization) gas analyzers
Metallurgical industryHydrogen, oxygen, nitrogenHydrogen is highly flammable, and too high or too low a concentration of oxygen can cause fires or explosions– High temperature gas concentration monitoring in smelting processes 
– Oxygen concentration control in metallurgical 
plants 
– Hydrogen production and pipeline leakage detection
Electrochemical gas analyzer, infrared gas analyzer, portable gas analyzer
Environmental protection and monitoringSulfur dioxide, nitrogen oxides, volatile organic compounds (VOCs), etc.Hazardous gas emissions lead to air pollution, increase greenhouse effect– Flue Gas Emission Monitoring 
– VOCs Emission Detection in Industrial Production 
– Peripheral Plant Air Quality Monitoring
Infrared gas analyzers, PID (photoionization) gas analyzers, stationary gas analyzers
Application scenarios of gas analyzers in industrial gas leakage detection

As a precision instrument, the gas analyzer needs to be operated in strict accordance with the specifications in daily use to ensure the accuracy of the test results and the stability of the equipment.

  1. Regular Calibration 
    The sensors of a gas analyzer can drift over time, affecting detection accuracy. Therefore, it is important to calibrate the instrument periodically to ensure that it remains in good working order.
  2. Sensor Maintenance 
    Different types of sensors have different requirements for environmental conditions, such as temperature and humidity. Sensors are susceptible to high temperatures and high humidity, and regular care and maintenance is essential.
  3. Data Management and Analysis 
    The results of a gas analyzer are often presented in the form of data, and regular analysis of this data can help companies identify potential safety hazards. Many modern gas analyzers are equipped with data storage and transfer capabilities, facilitating the monitoring and analysis of data over long periods of time.

With the complexity and diversification of industrial production, gas leakage detection has become an important means to ensure production safety and environmental protection. Gas analyzers, with their accurate, real-time and sensitive features, have become the key equipment for industrial gas leakage detection. By reasonably choosing the right gas analyzer and combining it with advanced intelligent technology, companies can better monitor the risk of gas leakage to ensure production safety, reduce losses and protect the environment.

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