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AMI H2S Analyzer

Choose “The Right H2S Analyzer”​

H2S (Hydrogen Sulfide) is a naturally occurring gas. We can found it in crude oil, natural gas, volcanic gases & hot springs. H2S can be generated by the bacterial breakdown of organic matter, i.e. municipal wastewater processing, manufacturing and industrial processes.

H2S can be toxic to humans, corrosive to metals & flammable. Exceeding100 ppm atmospheric concentrations is harmful to human health while lower concentrations can irritate. For the personnel safety & for the integrity of industrial process equipment, infrastructure, and pipelines, H2S level measurement is vital.

Choosing right H2S analyser involves many factors. Many options are available in the market and this article with help you to choose “the Right H2S Analyzer”

Let’s Talk about Different type of H2S analyzers first.

FTIR Analyzer are some of the most accurate H2S analyzers. They use infrared light to measure the amount of H2S in a sample. 

Chemiluminescence Analyzer use a chemical reaction to measure the amount of H2S in a sample.

Electrochemical Analyzer use an electrolytic cell to measure the concentration of the gas by an oxidation reaction of the H2S that generates a current flow proportional to the gas concentration.

Lead Acetate tape Analyzer utilizes lead acetate-coated tape to detect the presence of H2S in a gas sample.

TDL analyzer works on Tunable Diode Laser absorption spectroscopy. Light is emitted at a particular wavelength and absorption by the sample is measured.

Sulfur Selective Electrodes are one of the most popular H2S analyzers. They are very accurate and can measure low levels of H2S.

UV Analyzer are based on the absorbance property of SO2. H2S is converted to SO2 and absorbs UV light. Measurement is done by wavelength difference of UV light absorbed to emit.

How to Select “the Right H2S Analyzer”

  1. Check the measuring requirement of H2S concentration to select right measuring range. Some H2S analyzers only measure low levels of H2S, while others can measure higher levels.
  2. Sample temperature need to be checked and if required, you need to condition your samples as per H2S analyzers specification.
  3. You have to choose H2S analyzers according to Phase of measurement i.e. Liquid or Gas
  4. Where you need to place your analyser. You have to keep in mind the required infrastructure i.e. sun shade roof, air conditioned panel, shelter, cabinet. Check the ambient operating temperature of H2S analyser while selection.
  5. The accuracy of the analyzer differs from the selected operating principle. Some H2S analyzers are more accurate than others. Choose wisely as per your application and process requirements. That helps you to cut the unnecessary cost of high accurate H2S Analyzers.
  6. Keep in mind about Other Features like such as communication, self-diagnostics, etc.

What are the Benefits of an H2S Analyzer

  1.  Increased Safety: H2S is a dangerous gas and difficult to detect without the proper apparatus. An H2S analyzer can help you to monitor hydrogen sulfide levels so that you can take steps to reduce exposure and keep your environment safe. Safety of personnel is the utmost thing.
  2.  Increased productivity: H2S measurement and monitoring can help you to change your processes to reduce exposure and enhance safety. Thus it can lead to increased productivity and improved working conditions.
  3.  Cost Savings: By monitoring H2S levels, you can avoid costly repairs and breakdowns.

There are many factors like Cost, accuracy, sensitivity etc. are the essential factors to keep in mind. Researching and consulting with an expert can help you choose “the right H2S analyser”.

AMI (Advanced Micro Instruments Inc.) is the Original End Manufacturer of H2S analyser, O2 (Oxygen) analyzer and H2O (Moisture) Analyzer. AMI brings together patented technologies, superior design and application expertise to deliver unmatched performance, reliability and ease of use.

Natural Gas, Biogas, Laboratories, Wastewater, Air separation, Aerospace, Cryogenic and Industrial Processing sectors are widely using AMI Analyzer

Axis Solutions Private Limited represents the AMI for the India and Middle East region. Ask our expert for the help to choose “the right H2S analyzer”.

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PROLINE Launch event

Mr Bijal Sanghvi with Mr Helmi Srour: Light the lamp to inaugurate the PROLINE Launch event @Regenta, Ahmedabad on 25 February 2016
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Automation in Oil & Gas Sector

The Oil & Gas sector is one of the biggest industries in the world providing employment opportunities to thousands of workers worldwide. In India, it is among the 6 core industries and the most influential in the country’s economy. In fact, as stated by Mr Dharmendra Pradhan, Minister of State for Petroleum and Natural Gas, India’s oil demand is expected to grow at a CAGR of 3.6 per cent to 458 Million Tonnes of Oil Equivalent (MTOE) by 2040, while demand for energy will more than double by 2040 as economy will grow to more than five times its current size. An industry that is growing in such a rapid pace requires optimized operations of upstream and downstream stations that can help achieve monitored control, increasing efficiency and thereby more productivity and profitability. Hence, there is a strong need of sophisticated automation and instrumentation systems at all stages of Oil & Gas production process that is basically an extensive method of Exploration, Well Development, Production & Site Abandonment.

Drilling department in the sector is one such department that is and will reap the maximum benefits of advanced automation solutions. Automated drilling technology aids in making economically viable wells in lesser time, thereby increasing the number of production wells. As the crude oil is extracted and transferred to the production site which is usually a zone of harmful gases, proper measures need to be taken. Such petrochemical products are kept in highly compact atmosphere in analyser shelters so that no harmful gas can be penetrated outside. Hence, while increasing productivity and efficiency is one of the major goals in the industry, the major focus however is on safety. The safety of, but not limited to, environment owing to gas leakage. The successful outdoor installation and operation of analysers calls for protection from environmental hazards owing to extreme temperature. These installations need high maintenance by the workers and hence, consideration of the working conditions of such maintenance workers who must attend to these equipments on a daily basis is mandatory and is of utmost priority. It must be ensured that the workers have an access to a safe and comfortable working environment.

Not only that, another factor that needs careful consideration is that of provision of accurate and uninterrupted readouts of data measurements, an error in which may lead to explosions. This is done to achieve maximum production while not at the cost of safety operations.

To meet such industry challenges that are constantly evolving, Axis India offers resilient and hazard proof Analyser Shelter that ‘protects’ the instruments mounted in such crisis zones to prevent gas leakage. The shelters are carefully engineered and built in such a way that it can withstand temperature extremes and ensure ease of maintenance and accurate data reading. Bringing the sample gas post extraction for further process directly into the analyzer electronics closure is potentially hazardous. If there is a leak, it can cause explosions, also increasing the risk of human exposure. To prevent such occurrences, the shelter by Axis is constructed as a fully insulated sandwich construction with stainless steel (316) inner and outer sheeting, making it suitable for corrosive and cold ambient conditions. Complete Interlocking ribbed structure lends better technology with extra strength. The shelter is provided with a heating & ventilation system and can be fitted with a full HVAC system. The complete shelter is designed, fabricated and tested in-house as an integrated system. With this approach, site installation work is reduced to a minimum. AXIS also provides complete Integrated Analyzer Shelter Systems and all related services from initial engineering through manufacturing, testing and field start-up. Analyzers Systems are normally supplied and installed in the special Analyzer shelter including air-conditioning or HVAC, power distribution, lighting, termination and junction boxes, gas and flame detection, relevant piping and wiring. It is suitable for Area Classification for IEC ZONE 1, Group IIC or IEC Zone 1, IIA IIB.

The commitment towards lending Oil & Gas sector a smooth functioning and increased productivity is what drives Axis India to constantly innovate and update their technological solutions.  

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DAM Water Level Monitoring System

Project Introduction:

The Water Level from different dams located in State are to be monitored at the Central location. As the Dams & Central Location were the data are to monitored are geometrically apart from each other, the only way to have communication between them is GSM/GPRS.

The data from the dam side (7 different RTU’s) are being transmitted to Central Server RTU via GSM/GPRS. These data are to be integrated in the IEC 60870-104 based Pre-Installed SCADA System. The Central Server is a Modbus RTU.

The data is converted from Modbus RTU to IEC 60870-104 as the Pre-Installed SCADA was supporting IEC-104 protocol.

System Requirements

  • Centralized and stable monitoring platform for the data from different location.
  • Protocol conversion among Modbus and TCP/IP IEC 104
  • Easy integration with other pre-installed communication system.
  • Integration the data to pre-installed SCADA System.

Our Solution

The Analog & Digital values are being received at the Centralized master station side via Modbus RTU. The Modbus output can not to directly given to the pre-installed IEC-104 Server SCADA, so the Modbus output need to be converted to IEC-60870-104.

Our Multifunction Controller placed in between Modbus RTU & SCADA, which converts the Modbus data to IEC- 60870-104 format. The data from all the Dams can be monitored at the Centralized Location on to the IEC-104 based SCADA.

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Hazardous Area Classification

Hazardous areas are defined by taking into consideration the various dangers presented by potentially explosive atmospheres. This hazardous area classification enables protective measures to be taken.

There are basically two major standards governing hazardous areas classifications:

  • Classification in accordance with International Electro technical Committee (IEC),
  • Classification in accordance with National Electric Code (NEC).

IEC classifies hazardous areas in Zones, whereas NEC classifies hazardous areas in Classes and Divisions.

Zone 0

Place in which an explosive atmosphere consisting of a mixture with air of flammable substances in the form of gas, vapor or mist is present continuously or for long periods or frequently.

Zone 1

Place in which an explosive atmosphere consisting of a mixture with air of flammable substances in the form of gas, vapor or mist is likely to occur in normal operation occasionally.

Zone 2

Place in which an explosive atmosphere consisting of a mixture with air of flammable substances in the form of gas, vapor or mists is not likely to occur in normal operation but, if it does occur, will persist for a short period only.

Zone 20

Area in which an explosive atmosphere in the form of a cloud of combustible dust in air is present continuously, or for long periods or frequently.

Zone 21

Area in which an explosive atmosphere in the form of a cloud of combustible dust in air is likely to occur, occasionally, in normal operation.

Zone 22

Area in which an explosive atmosphere in the form of a cloud of combustible dust in air is not likely to occur in normal operation but, if it does occur, will persist for a short period only.

The classes defines the general nature of hazardous material in the surrounding atmosphere and the division defines the probability of hazardous material being present in an ignitable concentration in the surrounding atmosphere

Class I Locations

Class I locations are those in which flammable gases or vapors are or may be present in the air in quantities sufficient to produce explosive or ignitable mixtures. Class I locations are further subdivided into two Divisions and three Zones.

Class I, Division 1: There are three different situations that could exist to classify an area as a Class I, Division 1 location:

  • Ignitable concentrations of flammable gases or vapors may exist under normal operating conditions.
  • Ignitable concentrations of such gases or vapors may exist frequently because of repair or maintenance operations or because of leakage.
  • Breakdown or faulty operation of equipment or processes might release ignitable concentrations of flammable gases or vapors, and might also cause simultaneous failure of electric equipment.

Class I, Division 2: One of the following three situations must exist in order for an area to be considered a Class I, Division 2 location:

  1. Volatile flammable liquids or flammable gases are handled, processed or used, but the hazardous liquids, vapors or gases will normally be confined within closed containers or closed systems from which they can escape only in the event of accidental rupture or breakdown of such containers or systems, or as a result of abnormal operation of equipment.
  2. Ignitable concentrations of gases or vapors are normally prevented by positive mechanical ventilation, and which might become hazardous through failure or abnormal operations of the ventilating equipment.
  3. Adjacent to a Class I, Division 1 location, and to which ignitable concentrations of gases or vapors might occasionally be communicated unless such communication is prevented by adequate positive-pressure ventilation from a source of clean air, and effective safeguards against ventilation failure are provided.

Class I, Zone 0: One of the following two situations must exist in order for an area to be considered a Class I, Zone 0 location:

  1. Ignitable concentrations of flammable gases or vapors are present continuously.
  2. Ignitable concentrations of flammable gases or vapors are present for long periods of time.

Class I, Zone 1: One of the following four situations must exist in order for an area to be considered a Class I, Zone 1 location:

  1. Ignitable concentrations of flammable gases or vapors are likely to exist under normal operating conditions.
  2. Ignitable concentrations of flammable gases or vapors may exist frequently because of repair or maintenance operations or because of leakage.
  3. Equipment is operated or processes are carried on of such a nature that equipment breakdown or faulty operations could result in the release of ignitable concentrations of flammable gases or vapors and also cause simultaneous failure of electric equipment in a manner that would cause the electric equipment to become a source of ignition.
  4. A location that is adjacent to a Class I, Zone 0 location from which ignitable concentrations of vapors could be communicated, unless communication is prevented by adequate positive pressure ventilation from a source of clean air and effective safeguards against ventilation failure are provided.

Class I, Zone 2: One of the following four situations must exist in order for an area to be considered a Class I, Zone 2 location:

  1. Ignitable concentrations of flammable gases or vapors are not likely to occur in normal operation and if they do occur will exist only for a short period.
  2. Volatile flammable liquids, flammable gases or flammable vapors are handled, processed or used, but in which the liquids, gases or vapors are normally confined within closed containers or closed systems from which they can escape only as a result of accidental rupture or breakdown of the containers or system or as the result of the abnormal operation of the equipment with which the liquids or gases are handled, processed or used.
  3. Ignitable concentrations of flammable gases or vapors normally are prevented by positive mechanical ventilation, but which may become hazardous as the result of failure or abnormal operation of the ventilation equipment.
  4. A location that is adjacent to a Class I, Zone 1 location, from which ignitable concentrations of flammable gases or vapors could be communicated, unless such communication is prevented by adequate positive-pressure ventilation from a source of clean air, and effective safeguards against ventilation failure are provided.

Class II Locations

Class II hazardous locations are areas where combustible dust, rather than gases or liquids, may be present in varying hazardous concentrations. Class II locations are further subdivided into two divisions.

Class II, Division 1: One of the following three situations must exist in order for an area to be considered a Class II, Division 1 location:

  1. Where combustible dust is present in the air under normal operating conditions in such a quantity as to produce explosive or ignitable mixtures. This could be on a continuous, intermittent or periodic basis.
  2. Where an ignitable and/or explosive mixture could be produced if a mechanical failure or abnormal machinery operation occurs.
  3. Where electrically conductive dusts in hazardous concentrations are present.

Class II, Division 2: One of following two situations must exist in order for an area to be considered a Class II, Division 2 location:

  1. Combustible dust will not normally be in suspension in the air in quantities sufficient to produce explosive or ignitable mixtures, and dust accumulations will normally be insufficient to interfere with the normal operation of electric equipment or other apparatus, but combustible dust may be in suspension in the air as a result of infrequent malfunctioning of handling or processing equipment.
  2. Resulting combustible dust accumulations on, in or in the vicinity of the electric equipment may be sufficient to interfere with the safe dissipation of heat from electric equipment or may be ignitable by abnormal operation or failure of electric equipment.

Class III Locations

Class III hazardous locations contain easily ignitable fibers or flyings, but the concentration of these fibers or flyings are not suspended in the air in such quantities that would produce ignitable mixtures. Class III locations are further subdivided into two divisions.

Class III, Division 1: Easily ignitable fibers or materials producing combustible flyings are handled, manufactured or used.

Class III, Division 2: Easily ignitable fibers are stored or handled, other than in the process of manufacture.

The group defines the hazardous material in the surrounding atmosphere

Group A Acetylene

Group B Hydrogen, fuel and combustible process gases containing more than 30% hydrogen by volume or gases of equivalent hazard such as butadiene, ethylene, oxide, propylene oxide and acrolein.

Group C Carbon monoxide, ether, hydrogen sulfide, morphline, cyclopropane, ethyl and ethylene or gases of equivalent hazard.

Group D Gasoline, acetone, ammonia, benzene, butane, cyclopropane, ethanol, hexane, methanol, methane, vinyl chloride, natural gas, naphtha, propane or gases of equivalent hazard.

Group E Combustible metal dusts, including aluminum, magnesium and their commercial alloys or other combustible dusts whose particle size, abrasiveness and conductivity present similar hazards in connection with electrical equipment.

Group F Carbonaceous dusts, carbon black, coal black, charcoal, coal or coke dusts that have more than 8% total entrapped volatiles or dusts that have been sensitized by other material so they present an explosion hazard.

Group G Flour dust, grain dust, flour, starch, sugar, wood, plastic and chemicals. Group A, B, C and D apply to class I locations. Group E, F and G apply to class II locations.

As per the Indian standards the explosive gases are classified under two broad categories viz.,

Group I – Methane

Group II is subdivided into three types, viz. IIA, IIB, IIC

IIA represents Propane

IIB represents Ethylene

IIC represents Hydrogen and Acetylene