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GAS & LIQUID SAMPLING SYSTEM
Calibration Unit For Zirconia Oxygen Analyzer
Product Brochure
Model Name/Number | yes |
Brand | yes |
Usage/Application | yes |
Product Type | yes |
Power Supply | yes |
Features | yes |
The Zirconia Oxygen Analyzer is used to monitor and control the oxygen concentration in combustion gases, in boilers and industrial furnaces, for wide application in industries which consume considerable energy–such as steel, electric power, oil and petrochemical, ceramics, paper and pulp, food, or textiles, as well as incinerators and medium/small boilers. It can help conserve energy in these industries.It also contributes to the preservation of the earth’s environment in preventing global warming and air pollution by controlling complete combustion to reduce CO2, SOx, and NOx. Axis is providing system solutions for high availability, reliable, accurate with sampling system design where analytical measurement demands it.The Axis Zirconia Analyzer calibration unit is designed for the calibration process which is available with a fully automatic & manual option. Choose the detector version which best suits your needs so that an optimal combustion control system can be obtained.The system configuration can be classified into below basic patterns as follows:SYSTEM 1 (MANUAL CALIBRATION UNIT)This system is for monitoring and controlling oxygen concentration in the combustion gases of a large-size boiler or heating furnace. Clean (dry) air (21%O2) is used as the reference gas and the span gas for calibration. Zero gas is fed in from a cylinder during calibration. The gas flow is controlled by the flow setting unit with the manually setting of the ball valve.SYSTEM 2 (AUTO CALIBRATION UNIT)System 2 uses the automatic calibration unit, with auto-switching of the calibration gas. In this System, the gas flow is controlled by the solenoid valve, which is powered by an electronic signal from the converter according to the Sensor output.
SAMPLE HANDLING & CONDITIONING SYSTEM FOR HYDROGEN & OXYGEN PURITY ANALYSIS
Product Brochure
Model Name/Number | AGIHYDSHS |
Brand | yes |
Usage/Application | Check Hydrogen & Oxygen Purity |
Product Type | Sample Handling & Conditioning system |
Power Supply | Aspiration System |
Automation Grade | Automatic |
I Deal In | New Only |
Country of Origin | Made in India |
SAMPLE HANDLING SYSTEM ANALYZER PANEL
Minimum Order Quantity: 1 Piece
Automation Grade | Automatic |
Usage/Application | Flue Gas Analysis |
Phase | Single Phase |
Capacity | yes |
Probe Type | Single |
Display Type | yes |
Design | yes |
I Deal In | New Only |
Material | Iron |
Country of Origin | Made in India |
CEMS SAMPLE HANDLING SYSTEMA Sample Conditioning System is a crucial component in many analytical and measurement processes, particularly in industries where accurate analysis of gases or liquids is essential. This system ensures that the sample being analyzed reaches the analytical instruments in a state that is suitable for accurate measurement. Here's how it typically works:
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Sample Collection: The process starts with collecting a representative sample from the source. This could be from a pipeline, a reactor, a stack, or any other location where the substance of interest is present.
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Transportation: The collected sample needs to be transported from the sampling point to the analytical instruments. During transportation, it's crucial to maintain the sample at conditions that preserve its integrity and prevent any changes that could affect the accuracy of the analysis.
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Conditioning: The sample often needs conditioning to prepare it for analysis. This conditioning step can involve several processes:
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Temperature Control: Many samples need to be maintained at specific temperatures to prevent condensation, freezing, or evaporation, which could alter their composition.
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Pressure Control: In some cases, controlling the pressure of the sample is necessary to ensure it remains in the correct state for analysis.
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Filtration: Removing particulates or impurities from the sample to prevent them from interfering with the analysis.
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Drying: Removing moisture from the sample to prevent it from affecting the analysis.
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Dilution: Sometimes, the sample needs to be diluted to bring it within the measurement range of the analytical instruments.
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Distribution: Once conditioned, the sample is distributed to the analytical instruments for analysis. This distribution may involve splitting the sample into multiple streams if it needs to be analyzed by multiple instruments or sent to different locations.
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Monitoring and Control: Throughout the process, various parameters such as temperature, pressure, flow rate, and composition may need to be monitored and controlled to ensure the sample remains within the desired conditions for accurate analysis.
Sample conditioning systems are critical in industries such as petrochemicals, environmental monitoring, pharmaceuticals, and food and beverage production, where precise analysis of gases or liquids is essential for quality control, compliance, and safety. They help ensure that the analytical instruments receive samples that are consistent, representative, and free from contaminants or other factors that could affect the accuracy of the analysis.
GAS SAMPLING SYSTEM
Product Brochure
GAS SAMPLING SYSTEM
Minimum Order Quantity: 1 Piece
Product Brochure
A Gas Sampling and Conditioning System is designed to collect representative samples of gases from industrial processes and condition them for accurate analysis. It typically involves capturing gas samples, removing impurities, adjusting temperature and pressure, and sometimes diluting the sample to ensure it meets the requirements of the analytical instrumentation. This system plays a crucial role in providing reliable data for gas analysis, enabling precise measurements in various industrial applications, environmental monitoring, and research. Chlorine / H2S / HC / VOC / H2 / O2 / CO2 / CO / CH4
Sample Handling & Conditioning Systems For Water Analyser
Minimum Order Quantity: 1 Piece
Product Brochure
Type Of Material | Stainless Steel |
Warranty | 12 months |
Design | Standard |
Weight | yes |
Brand | AGI |
Country of Origin | Made in India |
Advanced Conditioning Systems for Water Analyzers
Introduction:Welcome to AGI, your trusted source for cutting-edge conditioning systems designed to optimize the performance of water analyzers. Our top-ranking products are engineered to ensure precise and reliable water analysis, making them an essential component for various industries. Explore our range of conditioning systems below, coupled with top-ranking keywords for enhanced SEO visibility.
1. *Precision Filtration Systems* - Keyword: "High-Efficiency Water Filtration" - Description: Our precision filtration systems eliminate impurities and particulate matter, ensuring the purity of water samples for accurate analysis. Experience unparalleled filtration efficiency with [Manufacturer Name].
2. *Temperature Control Units* - Keyword: "Water Temperature Stabilization" - Description: Maintain consistent water temperature during analysis with our advanced temperature control units. Achieve precise measurements with confidence.
3. *Chemical Dosage Systems* - Keyword: "Automated Chemical Dosing" - Description: Streamline your water analysis process with our chemical dosage systems. These automated systems ensure accurate dosing of reagents for reliable results.
4. *Sample Preconditioning Devices* - Keyword: "Sample Preparation for Water Analysis" - Description: Prepare water samples effortlessly with our sample preconditioning devices. Remove any potential interference and optimize the accuracy of your water analyzer.
5. *pH Adjustment Solutions* - Keyword: "pH Correction for Water Testing" - Description: Maintain the optimal pH level of your water samples with our pH adjustment solutions. Ensure that your water analyzer delivers precise readings every time.
6. *Calibration Kits* - Keyword: "Calibration for Water Analyzers" - Description: Trust in the accuracy of your water analyzer with our calibration kits. Keep your instrument in peak condition to meet the highest analytical standards.
7. *Remote Monitoring and Control* - Keyword: "Remote Water Analyzer Management" - Description: Monitor and control your water analyzer's conditioning systems remotely with ease. Stay connected and maintain peak performance at all times.
8. *Customized Solutions* - Keyword: "Tailored Water Analyzer Conditioning" - Description: AGI offers customized conditioning solutions to meet your specific requirements. Ensure that your water analyzer performs optimally for your unique applications.
Boost your water analysis accuracy and efficiency with AGI's advanced conditioning systems. We are committed to delivering top-quality products that enhance your analytical capabilities. Contact us today to learn more about how our conditioning systems can elevate your water analysis process.
Additional Information:
- Production Capacity: 50
- Delivery Time: 8-12 weeks
- Packaging Details: Wooden
CALIBRATION UNIT FOR PHARMA TOC WATER ANALYSER
Minimum Order Quantity: 1 Piece
Product Brochure
Model Name / Number | AGI |
Machine Type | SOLENOID VALVES |
Usage/Application | CALIBRATION UNIT |
Measuring Range | 0 - 250 ppm |
Accuracy | -+ 2% |
Limit of Detection | 2 ppb C |
Calibration units for Total Organic Carbon (TOC) water analyzers typically involve the use of certified reference standards. These standards contain a known concentration of organic carbon, which is used to calibrate the TOC analyzer. The calibration process may vary depending on the specific TOC analyzer model, but it generally involves the following steps:
1. Prepare Calibration Standards: Obtain certified TOC calibration standards with known concentrations of organic carbon. These standards are available from various manufacturers and are often provided with the TOC analyzer.
2. Zero Calibration: Start by calibrating the analyzer to a "zero" value using a blank solution (typically deionized or distilled water) to ensure that the instrument reads zero in the absence of organic carbon.
3. Multi-Point Calibration: Perform a multi-point calibration by using the calibration standards with known TOC concentrations. This typically involves at least two or more standards to create a calibration curve. The analyzer measures the TOC content in each standard and establishes a relationship between the measured values and the known concentrations.
4. Adjustment: If the analyzer's measurements deviate from the expected values, adjust the calibration settings accordingly to improve accuracy.
5. Validation: Verify the accuracy of the calibration by analyzing additional standards or samples with known TOC concentrations to ensure that the instrument's readings align with the expected values.
The specific calibration process may vary based on the manufacturer's instructions and the model of the TOC analyzer being used. Always follow the manufacturer's guidelines for calibration to ensure accurate TOC measurements.
VOC GAS SAMPLING SYSTEM
Minimum Order Quantity: 1 Piece
Product Brochure
Usage/Application | Laboratory Use |
Brand | AGI |
Color | yes |
Model Name/Number | yes |
Material | yes |
12 | 45000 |
Country of Origin | Made in India |
A VOC (Volatile Organic Compounds) gas sampling system in a paint booth is designed to monitor and control the levels of potentially harmful airborne substances emitted during painting processes. It typically includes sensors or analyzers that detect VOCs, ensuring compliance with safety standards and environmental regulations. The system may also integrate ventilation controls to maintain air quality within acceptable limits.
Sample Handling & Conditioning Systems For Online Dew Point Analysis
Minimum Order Quantity: 1 Piece
Usage/Application | Laboratory |
Measuring Range | -30 to 40 |
Warranty | 1 Year |
Design | Standard |
Automation Grade | Automatic |
Weight | yes |
Dimensions | yes |
Color | yes |
Country of Origin | Made in India |
Sample handling and conditioning systems for hydrogen purity analysis using detectors are critical for ensuring accurate and reliable results while maintaining safety. Here's an outline of key components and steps in such a system:
1. Sample Collection:
- Begin by collecting the hydrogen gas sample from the source using appropriate sampling equipment, such as gas cylinders or sample bags.
2. Sample Transport:
- Carefully transport the collected sample to the analysis area, maintaining sample integrity and avoiding contamination.
3. Sample Conditioning:
- Conditioning the sample may be necessary to:
- Remove impurities: Use filters, scrubbers, or purification units to remove contaminants like moisture, hydrocarbons, and other gases that could interfere with the analysis.
- Adjust temperature and pressure: Ensure that the sample is at the desired temperature and pressure conditions for accurate analysis. Use heaters, coolers, and pressure regulators as needed.
4. Gas Chromatography (GC) System:
- Inject the conditioned sample into a GC system designed for hydrogen purity analysis. The GC system typically includes:
- Sample injection port: Where the sample is introduced into the GC column.
- GC column: Separates hydrogen from other gases based on their properties.
- Detector: Utilize a suitable detector like a Thermal Conductivity Detector (TCD) or a Mass Spectrometer (MS) to measure gas concentrations.
- Data acquisition system: Collect and process detector signals for analysis.
5. Calibration and Quality Control:
- Regularly calibrate the GC system to ensure accuracy. Perform quality control checks using known standards to validate the system's performance.
6. Safety Measures:
- Implement safety features to handle hydrogen safely:
- Gas leak detection and alarm systems.
- Adequate ventilation and explosion-proof equipment.
- Emergency shutdown procedures and equipment.
7. Data Acquisition and Analysis:
- The GC system generates data on hydrogen purity, which can be processed and analyzed using software. Real-time monitoring and data storage are often part of the system.
8. Reporting:
- Document and report analysis results in a standardized format. Include details like sample origin, date, and time of analysis, as well as any relevant quality control information.
9. Maintenance:
- Regular maintenance of the system, including cleaning, column replacement, and detector maintenance, is essential for reliable operation.
10. Record Keeping:
- Maintain records of system maintenance, calibration, and analysis results for compliance and traceability purposes.
The specific design and components of the system may vary depending on the application and industry, such as hydrogen production, fuel cell testing, or laboratory research. Ensuring the accuracy and safety of hydrogen purity analysis is crucial, given the flammable nature of hydrogen gas and the need for precise measurements in various applications.
EIL APPROVED ASPIRATION SAMPLING SYSTEM FOR COOLING TOWER SAMPLE EXTRACTION
Minimum Order Quantity: 1 Piece
Automation Grade | Automatic |
Alarm Sensor Type | Ionization |
Product Type | yes |
Brand | yes |
Usage/Application | Office Buildings |
Power Source | yes |
Color | Brown |
Material | yes |
Is It Ce Certified | Ce Certified |
Is It Gsm Service | Gsm Service |
Sample Aspiration system
Minimum Order Quantity: 1 Piece
Product Brochure
Brand | AGI |
Weight | 10-12 kg |
Material | Stainless Steel-ss |
Grade | SS 316 |
Air Pressure | 15-150 psi |
Response Time | 0.25 to 0.75 s/m |
Vacuum drawn By Aspirator | 250 mmHg |
Sample Conditioning
Our Sample Conditioning Packages are designed to ensure that our gas sensors always have a clean and dry sample gas stream. Process conditions that include solvents, corrosive chemicals, and temperature extremes present significant challenges. To deliver accurate and reliable gas measurement, sensors require a sample that is free of contaminants. Sample conditioning systems built to withstand harsh processing conditions and efficiently remove damaging contaminants from the sample stream are critical to delivering reliable continuous-duty low-maintenance gas monitoring.
AGI provides systems for use in processes with continuous or varying pressure, ranging from high vacuum to 2,000 PSI. Three standard sample extraction methods are used to get the sample gas to the sensor. A continuous positive pressure drive system is used for process pressures above 5 PSI. A pneumatically driven intrinsically safe aspirator is used for pressures closer to atmospheric, and a vacuum pump drive system is used for processes running at high vacuum or if compressed gas consumption is a concern.
An industry leader in process gas sample conditioning, we have designed and installed HUNDREDS of systems in industrial manufacturing plants. Starting with a focus on applications in the O&G industry back in 2010, our markets have expanded to include applications in a variety of industries ranging from paints/coatings, pharmaceuticals, and industrial gases to power generation, metals production and food & beverage.
GAS SAMPLING METHODS
AGI provides three standard sampling methods designed for continuous extractive measurement.
Continuous Positive Pressure-driven
Continuous positive pressure within the process vessel or system provides the force that pushes the sample gas from the process to the sensor. Suitable for operating pressures between 5 and 300 psig, these systems include a pressure regulator to control the pressure and flow of the sample gas through the system.
Aspirator-driven
A pneumatically-driven aspirator is used to extract the sample gas from the process. Using compressed air or nitrogen as the drive gas, the aspirator produces vacuum by means of the Venturi effect. This vacuum is used to draw the sample gas from a long distance without long lag times in sensor response. Used for solvent-based or powder processing, these systems are ideally suited processes operating at pressures ranging from -25 inH2O to 5 psig.
Vacuum Pump-driven
When compressed gas is not available or when the process is running at high vacuum, a diaphragm vacuum pump is used to draw the sample gas stream to the sensor. Sized for the application, the vacuum pump is also used when compressed gas consumption is of concern.
APPLICATIONS
1. FIXED GAS DETECTORS
2. GAS ANALYZERS SUPPORT SYSTEM
3. CONTIONOUS EMISSIONING MONITERING SYSTEMS
Additional Information:
- Item Code: AGISP001
Single Line Steam & water Sample Handling Conditioning systems
Minimum Order Quantity: 1 Piece
Product Brochure
Plant Capacity | 100 LPH |
Type Of Material | Stainless Steel |
Water Source Type | Borewell Water |
Application Industry | Residential & Commercial Building |
Treatment Technique | RO |
Automation Grade | Manual |
Installation Type | Complete Civil work with Installation |
Voltage | 120V |
Frequency Range | 30 Hz |
Max Water Recovery Rate | 50% |
Air Blower Power | 0.25 KW |
Air Blower Count | 1 Blower |
Treatment Stages | Preliminary Treatment |
Deliver Type | PAN India |
"Enhance Industrial Performance with
our Steam & Water Analysis System.
Monitor steam quality, water purity,
and optimize processes for efficiency
and safety. Achieve peak productivity
with precision analysis and cutting-
edge technology."
Closed Loop Recirculation Sample Handling System
Product Brochure
Capacity | Up to 30 KLD |
Capacity(Kilo litre/Day) | 50 KLD |
Installation Type | Containerized Plug & Play |
Application Industry | Food Industry |
Inlet Flow Rate(m3/day or m3/hr) | 50 m3/day |
Material Of Construction | Mild Steel |
Air Blower Count | 1 Blower |
Air Blower Power | 0.25 KW |
Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
Water Source | Industrial Effluent |
Deliver Type | PAN India |
Treatment Stages | Preliminary Treatment |
Closed Loop Sample Handling System
Minimum Order Quantity: 1 Piece
Product Brochure
Weight | As per request |
Dimensions | As per request |
Usage/Application | Gas Sampling System |
Pressure | As per request |
Brand | AGI |
Design type | Aspiration |
Size | As per request / Design service available |
Material | SS 316 / 304 / Aluminium / ETC |
Country of Origin | Made in India |
Amar Gases Instrumentation (AGI) offers gas sampling and conditioning systems that are used for the analysis and measurement of various gases. These systems are designed to provide accurate and reliable results by conditioning and filtering the gas samples before they are analyzed. Here are some details about AGI's gas sampling and conditioning systems:
Customizable: AGI's gas sampling and conditioning systems can be customized to meet the specific needs of their customers. They offer various configurations and options that can be tailored to the gas analysis requirements of the customer.
Precise and accurate: AGI's gas sampling and conditioning systems are designed to provide precise and accurate gas measurements. The conditioning and filtering processes ensure that the gas samples are free from contaminants and interference, leading to more accurate results.
Versatile: AGI's gas sampling and conditioning systems can be used in a variety of industries and applications, including environmental monitoring, industrial process control, and laboratory research.
Reliable and durable: AGI's gas sampling and conditioning systems are built with high-quality components and materials, making them reliable and durable for even the most demanding applications.
Easy to use: These systems are user-friendly and easy to operate, requiring minimal training and reducing the risk of operator error.
Safety features: AGI's gas sampling and conditioning systems are designed with safety features such as pressure relief valves, emergency shut-off switches, and leak detection systems to ensure safe operation.
Overall, AGI's gas sampling and conditioning systems are an excellent choice for customers who require accurate and reliable gas measurements. We offer customization, precision, versatility, reliability, ease of use, and safety features, making them a comprehensive solution for gas analysis applications.
Additional Information:
- Delivery Time: As per request
- Packaging Details: AGI offers customizable, durable, secure, environmentally friendly, and affordable wooden packing solutions for their liquid handling and conditioning systems and other products. These packing solutions are designed to protect the products during transportation and comply with international shipping regulations and standards for sustainable packaging.