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Water Flow Meters
1,000 - 100,000 Per Piece
10 Piece (MOQ)
WATER FLOW METER We are involved in the Manufacturing and Exporting of Flow Meters that are integrated with advance technology for better performance. These Flow Meters are widely acclaimed by the clients for their distinctive features. We offer Flow Meters in diverse specifications to cater the needs of the domestic as well as international market. Salient Features High durability Reliability Precision engineering Accurate measurements Range of Flow Meters Includes PD meters Turbine meters Orifice meters Carioles meters Ultrasonic meters Paddle wheel flow meter Electromagnetic flow meter Mass flow meter Thermal mass flow meter Insertion flow meter Line Size 14" - 300 MM Media Any Pressure Any Temperature Any Connection Thread EndFlange EndTriclover End
Type : Water Flow Meters
Finish : Finie Finish
Application : industrial
Material : Metal
Country of Origin : India
Packaging Type : Box Packaging
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Vibrating Fork Level Switch
1,000 - 90,000 Per Piece
10 Piece (MOQ)
vibrating point level switch for high, low or demand levels of dry bulk solids in bins, silos or hoppers. This compact switch can be top, side or angle mounted. The vibrating fork design ensures the tines are kept clean, and the unique fork and crystal assembly design eliminates false high level readings even if tines become damaged. Used for liquidsolid interface detects settled solids within liquids or solids in confined spaces like feed pipes. It is designed to ignore liquids in order to detect the interface between a solid and a liquid. This has an optional 4-20 mA output for monitoring buildup on the fork in sticky applications, to determine the need for preventative maintenance. Key Specifications High resistance to mechanical forces, and strong vibration resistance to high bulk material loads Suitable for low density material: standard version, liquidsolid interface version, and low density option Low frequency, low energy operation High or low level alarm in solids with simple failsafe highlow selection
Material : Metal
Application : Vibrating Levelling
Type : Vibrating Fork Level Limit Switch
Frequency : 60Hz
Country of Origin : India
Meter Technology : Differential
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VALVE -POSITIONERS
10,000 - 1,000,000 Per Piece
5 Piece (MOQ)
FOR ANY MORE DETAILS ABOUT THIS PRODUCT KINDLY CONTACT US. SOHAM AUTOMATION
Automation Grade : Automatic
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Ultrasonic Flow Meter
10,000 - 1,000,000 Per Piece
10 Piece (MOQ)
Ultrasonic flow meter we are involved in the manufacturing and exporting of flow meters that are integrated with advance technology for better performance. These flow meters are widely acclaimed by the clients for their distinctive features. We offer flow meters in diverse specifications to cater the needs of the domestic as well as international market. Salient features • high durability • reliability • precision engineering • accurate measurements range of flow meters includes • pd meters • turbine meters • orifice meters • carioles meters • ultrasonic meters • paddle wheel flow meter • electromagnetic flow meter • mass flow meter • thermal mass flow meter • insertion flow meter
Material : Mild Steel
Finishing : Polished
Driven Type : Battery
Color : Grey Blue
Pressure : Low Pressure, Medium Pressure, High Pressure
Operating Type : Automatic
Usage : Industrial
Packaging Type : Carton Box
Country of Origin : India
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Temperature Transmitters
2,700 - 36,000 Per Piece
10 Piece (MOQ)
Temperature transmitters are workhorses in industrial process control and automation. They convert the signal from temperature sensors (like Resistance Temperature Detectors (RTDs) or thermocouples) into a standard electrical signal, typically a 4-20mA current loop. This allows for accurate and reliable transmission of temperature readings over long distances. Here's a breakdown of their typical specifications: General Specifications · Temperature Range: This specifies the range of temperatures the transmitter can accurately measure. It can vary widely depending on the sensor type and application (e.g., -200°C to +1500°C for some industrial applications). · Sensor Input: The type of temperature sensor the transmitter is compatible with (e.g., RTD Pt100, thermocouple K, etc.). · Output Signal: The standardized electrical signal the transmitter sends, most commonly a 4-20mA current loop. Other options include 0-5V or 0-10V voltage outputs. Performance Specifications · Accuracy: Expressed as a percentage of full scale (%FS) or in temperature units (°C or °F). Typical accuracy for good quality transmitters is ±0.1%FS to ±1%FS. · Resolution: The smallest temperature change the transmitter can detect and convert into an output signal. Higher resolution translates to more precise measurements. · Response Time: The time it takes for the transmitter output to respond to a change in temperature (usually in seconds or milliseconds). Environmental Specifications · Ingress Protection (IP rating): A rating that specifies the level of protection against dust and water ingress. For example, an IP67 rated transmitter is dust tight and can withstand immersion in water up to 1 meter deep. · Operating Temperature Range: The range of ambient temperatures the transmitter can function within without compromising performance. This may differ from the temperature measurement range. · Material of Construction: The materials used in the transmitter housing and wetted parts (those that come into contact with the process environment). Common materials include stainless steel, aluminum, and high-temperature plastics. Additional Features · Communication Protocol (Optional): Some transmitters include communication protocols like HART or Modbus for remote configuration, diagnostics, and calibration. · Display (Optional): Some models may have a built-in display for local temperature reading. · Calibration: Transmitters need periodic calibration to ensure accuracy. Some models offer features like zero and span adjustments for easier calibration. Factors to Consider When Selecting a Temperature Transmitter · Temperature Range: Choose a transmitter with a range that comfortably covers the temperatures you intend to measure. · Sensor Input: Ensure compatibility between the transmitter and your chosen temperature sensor type. · Accuracy: Select a transmitter with accuracy that meets your application's requirements. · Output Signal: Choose a standard output signal compatible with your data acquisition system. · Environmental Considerations: Consider the ambient temperature range, dust/moisture levels, and required enclosure rating for your application environment. · Additional Features: Consider optional features like communication protocols or a display based on your needs. By understanding these specifications and factors, you can select a temperature transmitter that effectively converts temperature sensor signals into a reliable and standardized output for accurate temperature measurement and control in your application.
Color : Green
Condition : New
Automatic Grade : Automatic
Power Source : Electric
Application : Industrial Automation
Style : Head Mounted
Certification : CE Certified
Type : Temperature Transmitters
Country of Origin : India
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Temperature Gauges
1,000 - 100,000 Per Piece
10 Piece (MOQ)
Temperature gauges provide a local visual display of temperature readings, often used in various industrial and commercial settings. Here's a breakdown of their typical specifications: General Specifications · Temperature Range: The range of temperatures the gauge can display (e.g., -40°C to +300°C). · Temperature Dial: This displays the temperature scale (e.g., Celsius or Fahrenheit) and markings for the measurable temperature range. · Pointer: This indicates the measured temperature on the temperature dial. Performance Specifications · Accuracy: Expressed as a percentage of full scale (%FS) or in temperature units (°C or °F). Typical accuracy for good quality gauges is ±2%FS to ±5%FS. Dial thermometers generally have lower accuracy than digital thermometers. · Response Time: The time it takes for the gauge to reflect a change in temperature (usually slower than electronic thermometers, ranging from seconds to minutes). Additional Features · Stem Length: The length of the metal part inserted into the medium to measure temperature. Choose a stem length that reaches the point of desired temperature measurement within the process or environment. · Material of Construction: The materials used in the gauge housing, stem, and dial. Common materials include stainless steel, brass, and plastic. The selection depends on factors like temperature range, pressure resistance, and corrosion potential of the environment. · Fill Material (Liquid Filled Gauges): Some gauges are filled with a liquid (often glycerin or silicone oil) to dampen vibrations and improve pointer movement readability. · Max/Min Recording (Optional): A feature in some gauges that tracks and displays the highest and lowest temperatures recorded. · Alarm (Optional): Certain models can be equipped with alarms to trigger at pre-set high or low-temperature thresholds. Environmental Specifications · Ambient Temperature Range: The range of surrounding temperatures the gauge can function within without compromising performance. · Ingress Protection (IP rating) (Optional): A rating for some gauges indicating their resistance against dust and water ingress (e.g., IP54 for dust resistance and splash water protection). Factors to Consider When Selecting a Temperature Gauge · Temperature Range: Choose a gauge with a range that covers the entire temperature spectrum you intend to monitor. · Accuracy: Select a gauge with accuracy suitable for your application's requirements. Dial thermometers may be sufficient for non-critical applications where high precision isn't essential. · Response Time: Consider how quickly you need the gauge to reflect temperature changes in your application. · Stem Length: Choose a stem length that reaches the appropriate measurement point within your process or environment. · Material of Construction: Select materials compatible with the temperature range, pressure, and potential corrosive elements in your application. · Additional Features: Consider optional features like max/min recording, alarms, or an IP rating based on your needs. By understanding these specifications and factors, you can select a temperature gauge that provides a clear and reliable visual indication of temperature for your monitoring applications.
Material : Mild Steel
Shape : Round
Color : Blue
Application : Used To Measure The Temprature Of Liquids
Feature : Accuracy, Easy To Fit, Measure Fast Reading
Display Type : Digital
Type : Temperature Gauges
Country of Origin : India
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Temperature Data Logger
10,000 - 100,000 Per Piece
10 Piece (MOQ)
TEMPERATURE LOGGER Type of Input - FIxUniversal No Of Input - 2481632 Display - seven segment display for Process Value & Channel No Out Put (Optional) - Relay24 V DC Supply RS 232RS 485Ethernet calibration - through front key Fully programmable Memory - In built
Material : Mild Steel
Color : Blue
Condition : New
Power Source : Electric
Automation Grade : Automatic, Fully Automatic
Feature : Accuracy, Durable, Light Weight, Low Power Comsumption
Display Type : Digital
Type : Temperature Data Logger
Theory : Micro Controoler SMD Base
Country of Origin : India
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Temperature Controller
10 Piece (MOQ)
Driven Type : Electric
Color : Black
Application : Industrial
Size : 96 X 96 MM
Feature : Auto Controller, Durable, High Performance
Voltage : 220V
Display Type : Digital
Certificate : CE Certified
Type : Temperature Controller
Frequency : 50Hz
Country of Origin : India
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Solenoid Valve
1,000 - 100,000 Per Piece
10 Piece (MOQ)
A solenoid valve is an electromechanically operated valve. It uses an electrical current to control the flow of fluids or gases within a pipeline. Here's a quick breakdown of its operation and key characteristics: Function: · A solenoid valve contains a coil of wire wrapped around a core, forming an electromagnet. · When electricity is applied to the coil, it generates a magnetic field. · This magnetic field pulls a metal plunger or pivoted armature within the valve, opening or closing a flow passage. · De-energizing the coil removes the magnetic field, allowing the plunger or armature to return to its original position with the help of a spring, closing or opening the flow path depending on the valve design. Types: · Solenoid valves come in various configurations, each with slight variations in performance: o Standard Solenoid Valve: Most common type, suitable for clean liquids and gases. o Split Body Solenoid Valve: Easier to install/remove from pipelines without interrupting flow. o Low Flow Solenoid Valve: Designed for precise control of lower flow rates. Benefits: · Simple and reliable operation. · Fast switching speeds. · Low power consumption (depending on design). · Compact size. · Requires no minimum pressure to operate. · Can be remotely controlled electrically.Applications: · Solenoid valves find use in various industries for automated fluid control: o Irrigation systems: Controlling water flow to sprinklers or drip lines. o Pneumatic and hydraulic systems: Directing compressed air or hydraulic fluid. o Chemical processing plants: Regulating the flow of chemicals within processes. o Appliance control: Regulating water flow in washing machines or dishwashers. o Medical equipment: Controlling gas and fluid flow in medical devices. In summary, solenoid valves offer a versatile and reliable solution for controlling fluid flow in various industrial and commercial applications.
Material : Metal
Media : Gas
Automatic Grade : Automatic
Color : Sky Blue
Mounting Type : Horizontal
Packaging Type : Carton
Country of Origin : India
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Side Mounted Magnetic Level Indicator
1,000 - 100,000 Per Piece
10 Piece (MOQ)
Level indicators, unlike level switches, provide a continuous visual representation of the level of liquid or bulk solids within a container. They offer a more informative way to monitor fill levels compared to level switches that simply trigger an on/off signal at preset points. Here's a breakdown of level indicators and their various types: Function: · Provide a direct visual indication of the level of liquid or bulk material in a tank, bin, or silo. · Allow for continuous monitoring of fill levels without relying solely on electrical signals. · Can be used for various applications, including process monitoring, inventory control, and ensuring safety by preventing overfills. Types of Level Indicators: The choice of level indicator depends on the type of material being monitored (liquid or solid) and the desired level of detail: · Sight Glasses (Tubular Level Gauges): o Simple and cost-effective option for liquids. o Consists of a transparent tube or window mounted on the side of a tank, allowing you to see the liquid level directly. o Suitable for various tank sizes and pressures depending on the material. · Reflex Level Gauges: o For liquids with different refractive indexes (light bending properties) than the gauge material. o The interface between the liquid and empty space appears as a distinct line due to refraction, indicating the level. · Magnetic Level Indicators: o Utilize a magnetic float inside the tank connected to an external indicator with red and white sections. o The red section rises with the float as the liquid level increases, providing a visual indication. (May not be suitable for all liquids or environments with strong magnetic fields) · Electronic Level Indicators: o Employ electronic sensors and a digital display to show the liquid level. o May use various sensing technologies like ultrasonic or radar and offer features like level scaling and data logging. · Float and Board Level Indicators: o Primarily for large tanks with bulk solids. o A float rides on the surface of the material, connected by a cable and pulley system to an indicator board outside the tank. o The board moves up or down to visually represent the fill level. Additional Considerations When Choosing a Level Indicator: · Material Type: Liquid or bulk solid (and its properties like transparency, viscosity)? · Tank Material and Pressure: Compatible with the sight glass or enclosure material? · Temperature Range: Suitable for the operating environment? · Desired Level Detail: Basic level indication or need for precise measurements? · Visibility Requirements: Viewing distance and ambient light conditions? · Cost and Maintenance: Evaluate initial cost and ease of cleaning or maintenance. Advantages of Level Indicators: · Simple and Easy to Use: Provide a clear visual representation of fill levels. · Reliable Operation: Generally less complex than level switches, offering reliable monitoring. · Cost-Effective: Many options are affordable, especially for basic level indication. Disadvantages of Level Indicators: · Limited Data Output: Do not typically offer data logging or remote monitoring capabilities. · Accuracy: May not be as precise as some electronic level switches for specific applications. · Visibility Concerns: Viewing angles or ambient light can affect readability in some cases. Overall, level indicators provide a valuable tool for visual monitoring of liquid or bulk solid levels in various applications. By considering the type of material, tank conditions, and desired level detail, you can choose the most appropriate level indicator for your needs. They offer a simple, reliable, and cost-effective way to keep an eye on your inventory and ensure safe operation.
Material : Mild Steel
Color : Black
Condition : New
Automatic Grade : Automatic
Guage Shape : Round
Application : Testing Water Level
Feature : Accuracy, Easy To Fit, Measure Fast Reading, Perfect Strength
Display Type : Digital
Type : Magnetic Level Indicators
Country of Origin : India
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data scanner
16,650 - 36,000 Per Piece
10 Piece (MOQ)
Application: Temperature (Pressure, Vacuum, Flow, pH or any other measurement) measurement of 8/16 channels in 1 instrument along with printing output directly printing onto the printer without need for a computer. Data printed directly onto the 80/132 column printer includes date, time, channel number, temperature measured & alarm status of all channels. Options available include computer connectivity (RS 232, RS 485) and modbus with related softwares. SPECIFICATIONS: Input : Temperature (RTD Pt - 100 'J', 'K', thermocouple sensor) Vacuum or Pressure, Flow, pH, Humidity DC Current: 4 - 20 mA D.C. Voltage 0 - 10 V. Display : 4 1/2 Digit Red L.E.D, 7 segment, 0.56" High. Resolution : 0.1, 0.01, 0.001 selectable Scan Time : 1 to 99 sec between channels (Field Programmable) Calibration : Software Based for Individual Channel Relay/ Alarm : 2 Relay Contacts for Alarm & Trip Print Scan Time : 5 to 9999 sec between succusive printouts. Alarm : Independent HI / Lo alarams for each channel. Software (Optional) : Modchart Data Acquisition Software for Real Time Supervision, historical trend analysis & alarm reports
Finishing : Polished
Driven Type : Electric
Color : Ivory
Voltage : 220V
Packaging Type : Carton Box
Connectivity Type : Wired
Specialities : Easy To Operate, Adjustable, Actual Film Quality
Weight : 1
Country of Origin : India
Operating Mode : Automatic
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SA VORTX AND STEAM FLOW METER
50,000 - 500,000 Per Nos
10 Nos (MOQ)
Vortex Flow Meter: Reliable Measurement for Various Fluids The vortex flow meter is a versatile instrument used to measure the volumetric flow rate of fluids within a pipeline. It operates based on the principle of vortex shedding, making it suitable for a wide range of liquids, gases, and even steam. Here's a breakdown of the product description and key specifications to consider when selecting a vortex flow meter: Product Description: Vortex flow meters utilize a bluff body (a shedder) strategically placed within the flow stream. As the fluid flows past the bluff body, vortices ( swirling patterns) are shed alternately from either side. The frequency of vortex shedding is directly proportional to the flow velocity. The meter's sensor, typically piezoelectric or ultrasonic, detects these pressure fluctuations caused by the vortices. The meter's electronics then convert the vortex shedding frequency into a flow rate measurement. Benefits of Vortex Flow Meters: · Wide range of applications: Capable of measuring flow rates for various fluids, including liquids, gases, and steam (with proper conditioning). · No moving parts: Offers reliable operation with minimal maintenance requirements due to the absence of moving parts. · Good accuracy: Can achieve accuracy of ±0.5% to ±2% of reading under ideal conditions. · Low pressure drop: The shedder creates minimal obstruction within the pipe, resulting in low pressure drop across the meter. · Wide flow rate range: Can handle a broad spectrum of flow rates, making them adaptable to diverse applications. Specifications to Consider When Selecting a Vortex Flow Meter: · Flow Meter Type: Vortex flow meters come in various configurations, each with slight performance variations. Common types include: o Standard Vortex Flow Meter: The most common type, suitable for clean liquids and gases. o Split Body Vortex Flow Meter: Easier to install/remove from existing pipelines without interrupting flow. o Low Flow Vortex Flow Meter: Designed for measuring lower flow rates with good accuracy. · Pipe Size: The diameter of the pipe the meter is designed for (e.g., 1 inch, 4 inch, etc.). Ensure it matches your pipeline diameter. · Flow Rate Range: Select a meter with a range that comfortably covers your anticipated flow rates for the chosen fluid type. · Accuracy: Consider the required accuracy level for your application. · Pressure Rating: The maximum pressure the meter can withstand without failure. Ensure it meets the operating pressure in your system. · Temperature Rating: The range of temperatures the meter can function within without compromising performance. Consider both ambient and fluid temperatures. · Material Compatibility: The meter's body and wetted materials should be compatible with the fluid type to avoid corrosion or measurement issues. Common materials include stainless steel, exotic alloys, and various plastics depending on the application. · Output Signal: The electrical signal the meter generates to represent the flow rate. Common options include: o Pulse output: Generates a pulse for each unit of volume or vortex shedding event. The pulse frequency is proportional to the flow rate. o Analog output: Provides a 4-20mA current loop or 0-10V voltage signal representing the flow rate. Additional Features (Optional): · Temperature Sensor: Improves accuracy by compensating for the effect of temperature on fluid viscosity, which can influence vortex shedding. · Remote Electronics: Enables mounting the meter's electronics away from the pipeline in harsh environments or for easier access. · Communication Protocols (Optional): Some advanced models offer communication protocols (e.g., Modbus) for remote monitoring and configuration. Applications of Vortex Flow Meters: · Water and Wastewater Treatment: Monitoring flow rates of water, effluent, and chemical solutions. · Chemical and Process Industries: Measuring flow rates of various chemicals, gases, and light hydrocarbons. · Oil and Gas Production: Monitoring flow rates of crude oil, refined products, and natural gas (with proper conditioning). · Power Generation: Measuring steam flow rates, compressed air, and other critical fluids. · HVAC Systems: Monitoring chilled water flow rates and air flow for building temperature control
Material : Mild Steel
Finishing : Powder Coated
Driven Type : Electric
Color : Grey Blue
Pressure : Low Pressure, Medium Pressure, High Pressure
Operating Type : Automatic
Usage : Industrial
Voltage : 220V
Packaging Type : Carton Box
Certificate : CE Certified, ISO 9001:2008
Specialities : Accuracy
Type : Steam Flow Meter
Country of Origin : India
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Rota Meter
6,750 - 36,000 Per piece
10 Piece (MOQ)
A rotameter, also known as a variable area flow meter, is a simple and cost-effective device used to measure the volumetric flow rate of liquids or gases in a closed tube. Here's a quick breakdown: · Function: Measures the flow rate by observing the position of a float suspended within a tapered tube. · Design: o Consists of a transparent, vertical tube with a wider diameter at the bottom and a narrower diameter at the top. o A freely moving float is positioned inside the tube. · Operation: o As the flow rate increases, the drag force on the float pushes it higher in the tapered tube.o The higher the float position, the greater the flow rate. o A scale marked on the outside of the tube allows you to directly read the flow rate based on the float's position. · Advantages: o Simple and easy to understand operation. o Relatively inexpensive compared to other flow meters. o Works for both liquids and gases (depending on the model). o No external power required for operation (in some models). · Disadvantages: o Not very accurate for precise flow measurement. o Accuracy can be affected by changes in fluid viscosity or temperature (for liquids). o Limited data output (typically just flow rate). Applications: · Rotameters are commonly used in various industries for: o Monitoring flow rates in pipelines for chemical processing, water treatment, and food and beverage production. o Balancing flow rates in irrigation systems. o Measuring gas flow in laboratories or for medical applications (e.g., oxygen flow rate).
Material : Stainless Steel
Color : Black
Feature : Easy To Maintain
Type : Rotameters
Country of Origin : India
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Process Control Instruments
1,665 - 16,650 Per Piece
10 Piece (MOQ)
The Orchestra of Industry: A Deep Dive into Process Control Instruments In the grand symphony of industrial production, process control instruments play a vital role as the conductor, ensuring all elements work in harmony to achieve a flawless performance. These unsung heroes silently measure, monitor, and adjust various parameters within a process, guaranteeing consistent quality, efficiency, and safety. Here, we delve into the world of process control instruments, exploring their intricate details and creative applications: The Essential Players: · Sensors and Transducers: These are the eyes and ears of the process, gathering real-time data on crucial parameters like temperature, pressure, flow rate, and liquid level. Imagine a pressure sensor acting like a meticulous percussionist, keeping beat with the pressure fluctuations within a pipe. · Controllers: The brain of the operation, controllers analyze the data received from sensors and compare it to pre-defined setpoints. Based on these comparisons, they send instructions to adjust control elements, ensuring the process stays within the desired parameters. Think of the controller as the conductor, interpreting the sensor data and directing the control elements like a skilled maestro. · Control Elements: These are the workhorses of the process, physically manipulating various aspects based on the controller's instructions. A control valve, for example, acts like a skilled trumpet player, adjusting the flow rate of a liquid by opening or closing based on the controller's commands. · Final Control Elements: These are the final actuators that directly influence the process variables. A heater, for instance, functions like a passionate violinist, increasing or decreasing heat based on the controller's instructions to maintain the desired temperature. The Symphony in Action: Imagine a petroleum refinery – a complex dance of various processes. Temperature sensors, like watchful oboists, monitor the temperature within reactors. Pressure sensors, vigilant like timpanists, keep track of pressure levels in pipelines. The collected data streams to the controller, the conductor analyzing the information. If the temperature deviates from the setpoint, the controller sends signals. A valve, acting as a responsive flutist, adjusts the flow rate of a coolant, bringing the temperature back into harmony. This continuous monitoring and adjustment by process control instruments ensures the smooth operation of the refinery, producing high-quality fuel with optimal efficiency. Beyond the Basics: Creative Applications: Process control instruments are not limited to large-scale industrial settings. Here are some creative ways they are used: · Food Production: Maintaining precise fermentation temperatures in breweries or ensuring consistent baking temperatures in ovens. · Environmental Monitoring: Tracking air quality in urban areas or monitoring water levels in reservoirs. · Pharmaceutical Manufacturing: Ensuring sterile conditions and precise dosages during drug production. · Smart Homes: Regulating temperature and humidity levels for optimal comfort and energy efficiency. The Future Symphony: Advancements and Innovations: The world of process control instruments is constantly evolving. Here's a glimpse into the future: · The Rise of Automation: Artificial intelligence and machine learning will play a greater role in process optimization and anomaly detection. · Wireless Connectivity: Instruments will communicate wirelessly, enabling remote monitoring and control. · Advanced Sensor Technologies: Sensors with greater sensitivity and wider ranges will provide even more precise data. · Focus on Sustainability: Instruments will be designed to improve energy efficiency and reduce environmental impact. The Enduring Value: Process control instruments may not be the most glamorous aspect of industry, but their role is undeniable. They ensure consistent product quality, efficient operations, and safety across various sectors. As technology advances, these instruments will become even more sophisticated, composing a future symphony of industrial excellence. The Melody of Maintenance: Keeping the Instruments in Tune Just like any musical instrument, process control instruments require proper care and maintenance to perform at their best. Here's a look at the key aspects of keeping your industrial orchestra in perfect harmony: · Calibration: Regularly calibrate sensors and other instruments using certified standards to ensure accuracy. Imagine a piano tuner meticulously adjusting the strings to ensure each note resonates perfectly. · Preventative Maintenance: Schedule routine inspections and cleaning to prevent problems before they arise. Think of this as wiping down your instruments after a performance to maintain their longevity. · Diagnostics and Troubleshooting: Utilize built-in diagnostic features or specialized tools to identify and address instrument malfunctions promptly. This is akin to a musician recognizing a faulty string and replacing it before the next piece. · Training: Ensure personnel responsible for operating and maintaining the instruments are adequately trained. · Spare Parts Inventory: Maintain a readily available stock of critical spare parts to minimize downtime in case of failures. Imagine having a spare set of strings readily available in case one breaks during a concert. The Composer's Touch: Selecting the Right Instruments Choosing the appropriate process control instruments for your specific application is crucial. Here's a composer-like approach to selecting the right tools for the job: · Process Needs: Identify the critical parameters that need to be monitored and controlled within your process. What is the conductor trying to achieve? · Accuracy Requirements: Determine the level of precision needed for the measured variables. How critical are the nuances of each note? · Environmental Conditions: Consider factors like temperature, pressure, and potential presence of corrosive materials. Can the instruments withstand the environment like a well-crafted instrument can endure a long concert? · Cost and Budgetary Constraints: Balance the desired features and functionality with your budgetary limitations. How much can the orchestra afford to invest in its instruments? · Scalability and Future Needs: Think about the potential for future expansion or changes in your process. Will the instruments be adaptable to future variations in the musical composition? By carefully considering these factors, you can select the ideal process control instruments that will become the building blocks of a successful and efficient industrial operation. The Encore: The Impact of Process Control Instruments The impact of process control instruments extends far beyond the factory floor. Here are some of the lasting benefits they bring: · Improved Product Quality: Consistent monitoring and control ensure products meet specific quality standards. This translates to a flawless performance every time, like a perfectly executed musical piece. · Enhanced Safety: By preventing process upsets and equipment failures, process control instruments contribute to a safer working environment for personnel. · Reduced Costs: Efficient operation and minimized waste lead to lower production costs. This allows the orchestra to focus on delivering a high-quality performance without unnecessary expenses. · Environmental Protection: Precise control of processes helps reduce emissions and waste, contributing to a more sustainable future. It's like composing a beautiful symphony that is also harmonious with the environment. Process control instruments are the unsung heroes of industry, silently orchestrating a symphony of efficiency, quality, and safety. By understanding their intricacies, creative applications, and the importance of maintenance, we can ensure these instruments continue to play a vital role in our industrial endeavors.
Voltage : 220 V
Accuracy : 90%
Country of Origin : India
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pressure valve
1,000 - 1,000,000 Per Piece
10 Piece (MOQ)
A pressure valve is a safety device used in fluid systems to control or limit pressure. They play a critical role in preventing excessive pressure buildup within a system, which could potentially lead to equipment damage, malfunctions, or even explosions. Here's a detailed breakdown of pressure valves and their functionalities: Types of Pressure Valves: There are various types of pressure valves, each designed for specific purposes and applications. Here are some common types: · Pressure Relief Valve (PRV): The most common type, also known as a safety relief valve (SRV). It opens automatically to relieve excess pressure when it reaches a predetermined setpoint. Once the pressure falls below the setpoint, the valve closes again. PRVs are essential for protecting equipment and personnel from overpressure situations. · Pressure Reducing Valve (PRV): Maintains a constant downstream pressure regardless of fluctuations in the upstream pressure. This is crucial for applications where equipment requires a stable pressure supply for proper operation.· Back Pressure Valve: Allows flow in one direction only and automatically opens when there is a backflow or pressure from the opposite direction. This prevents unwanted flow reversal and protects pumps or other equipment from damage. · Sequence Valve: Controls the actuation of other valves in a specific sequence. It ensures a particular order of operation within a system based on pressure conditions. · Temperature and Pressure Relief Valve (TPRV): Combines pressure relief functionality with temperature sensing. It opens in response to exceeding either a pressure or temperature threshold, providing additional safety in systems where both factors can influence pressure. How Pressure Valves Work: The specific mechanism of a pressure valve depends on its type. However, here's a general concept: · A pressure valve typically contains a spring mechanism that holds a valve seat closed. · As pressure in the system builds, it acts on a piston or diaphragm within the valve. · When the pressure overcomes the spring force, the valve seat opens, allowing fluid to bypass and relieve the pressure. · In pressure reducing valves, an adjustment mechanism allows control of the spring force, setting the desired downstream pressure. Applications of Pressure Valves: Pressure valves are widely used across various industries to ensure safe and efficient operation of fluid systems. Here are some prominent examples: · Oil and Gas Production: Protecting pipelines, pumps, and other equipment from overpressure during oil and gas production, transportation, and refining. · Chemical Processing Plants: Maintaining safe pressure levels within reactors, vessels, and piping systems handling various chemicals. · Power Generation: Regulating pressure in boilers, steam turbines, and other components within power plants. · Hydraulic and Pneumatic Systems: Controlling pressure within hydraulic and pneumatic systems used for powering machinery and automation. · Water and Wastewater Treatment: Ensuring safe pressure levels within pumps, filters, and other equipment used in water treatment processes. · HVAC Systems: Regulating pressure in boilers, chillers, and piping systems within heating, ventilation, and air conditioning systems. Selection Considerations: Choosing the right pressure valve requires considering several factors: · Fluid Type: The valve material and design should be compatible with the fluid being handled. · Pressure Rating: The valve's pressure rating needs to exceed the system's maximum operating pressure. · Flow Rate: The valve should be able to handle the expected flow rate within the system. · Temperature Rating: The valve's temperature rating should be suitable for the operating temperature range of the system. · Response Time: For critical applications, consider the valve's response time to pressure changes. · Application Requirements: Select the valve type (PRV, PRV, etc.) based on the specific pressure control needs of your system. By understanding the different types, functionalities, and selection considerations for pressure valves, you can ensure the safety and proper operation of your fluid systems by effectively managing pressure levels.
Type : Pressure Reducing Valve
Valve Size : Customized
Material : Metal
End Connection : Screwed End
Fluid Media : Water
Actuator : Pneumatic
Pressure : High Pressure
Color : Sky Blue
Packaging Type : Carton
Country of Origin : India
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Pressure Transmitter
1,000 - 100,000 Per Piece
10 Piece (MOQ)
Pressure transmitters are workhorse devices in industrial process control. They convert pressure readings into a standard electrical signal, typically a 4-20mA current loop, that can be easily transmitted over long distances without signal degradation. This allows for remote monitoring and control of pressure in various applications. Expand more Here's a breakdown of typical pressure transmitter specifications: General Specifications · Pressure Range: The range of pressure the transmitter can measure.. Ranges can vary widely, from fractions of a psi to thousands of psi (or bar).exclamation · Accuracy: Expressed as a percentage of full scale (%FS).. Typical accuracy for good quality transmitters is ±0.1%FS.. · Output Signal: The most common output signal is a 4-20mA current loop.. Other options include 0-5V or 0-10V voltage output. · Supply Voltage: The voltage required to power the transmitter. This is typically 24VDC. Performance Specifications · Temperature Limits: The operating temperature range of the transmitter.. This will depend on the materials used in its construction. · Proof Pressure: The maximum pressure the transmitter can withstand without permanent damage.. This is typically 1.5 to 2 times the upper limit of the pressure range. · Burst Pressure: The pressure that will cause the transmitter to fail catastrophically. This is typically 4 times the upper limit of the pressure range.exclamation · Response Time: The time it takes for the transmitter output to respond to a change in pressure.. This is typically in milliseconds (ms). Environmental Specifications · Ingress Protection (IP rating): A rating that specifies the level of protection against dust and water ingress.. For example, an IP67 rated transmitter is dust tight and can withstand immersion in water up to 1 meter deep. · Material of Construction: The materials used in the wetted parts of the transmitter (the parts that come into contact with the process fluid). Common materials include stainless steel, Hastelloy C, and Monel. Additional Features · Communication Protocol: Some transmitters include a communication protocol, such as HART, that allows for remote configuration and diagnostics. · Display: Some transmitters have a built-in display that shows the pressure reading. · Calibration: Transmitters need to be calibrated periodically to ensure accuracy.. Some transmitters have features that make calibration easier, such as zero and span adjustments. Here are some additional factors to consider when selecting a pressure transmitter: · Process Connection: The type of fitting used to connect the transmitter to the process. Common process connections include NPT, flange, and sanitary tri-clamp. · Electrical Connections: The type of electrical connector used to connect the transmitter to the power supply and output signal. By considering these specifications and factors, you can select a pressure transmitter that is suitable for your specific application.
Material : Mild Steel
Driven Type : Battery
Color : Blue
Application : Industrial Use, Pressure Measurement
Certification : CE Certified
Type : Pressure Transmitter
Country of Origin : India
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pressure controllers
1,000 - 10,000 Per Piece
10 Piece (MOQ)
Pressure controllers are electronic devices that automatically regulate pressure in a system. They function by using a pressure sensor to monitor the current pressure, comparing it to a set point, and then activating control mechanisms to maintain the desired pressure level. Here's a breakdown of their typical specifications: General Specifications · Pressure Range: The range of pressure the controller can regulate (similar to pressure transmitters, ranging from fractions of psi to thousands of psi). · Control Output: This specifies how the controller influences pressure. Common outputs include: o Analog Outputs (e.g., 4-20mA current loop, 0-10V voltage) to control variable speed drives, solenoid valves, etc. o Digital Outputs (e.g., on/off relays) to activate pumps, compressors, or alarms. · Set Point: The desired pressure level the controller will maintain. Performance Specifications · Accuracy: Expressed as a percentage of full scale (%FS) for both the pressure sensor and the control mechanism. Typical accuracy is around ±0.25%FS to ±1%FS. · Proportional Band (Deadband): The range around the set point where the controller won't activate any control actions. A narrower band provides tighter control but can lead to more frequent cycling. · Reset: The amount of time it takes for the controller output to reach its maximum or minimum value after a change in the measured pressure. · Response Time: The time it takes for the controller to react to a pressure deviation from the set point (usually in milliseconds). Additional Features · Control Algorithm: Different algorithms are used for pressure control, each with its own advantages. Common types include: o Proportional-Integral-Derivative (PID) control: Offers precise control but requires careful tuning. o ON/OFF control: Simpler but can lead to pressure fluctuations. · Display: Many controllers have a digital display showing the measured pressure, set point, and control output. · Alarms: Some models can trigger alarms for high or low-pressure conditions. · Communication Protocols (Optional): Advanced controllers may offer communication protocols (e.g., Modbus, HART) for remote monitoring and configuration. · Power Supply: The voltage required to power the controller (typically 24VDC). Factors to Consider When Selecting a Pressure Controller · Pressure Range: Ensure the controller's range covers the desired pressure regulation range in your application. · Control Output: Choose a controller with an output compatible with your control valves, pumps, or other actuators. · Control Algorithm: Select an algorithm (PID, ON/OFF, etc.) that best suits your application's pressure control requirements. · Accuracy: Consider the required accuracy level for your process. · Additional Features: Choose features like alarms, communication protocols, or a display based on your needs. By understanding these specifications and factors, you can select a pressure controller that effectively regulates pressure within your system and aligns with your application's specific requirements.
Material : Mild Steel
Color : Black
Application : Liquid Pressure, Measuring Gas
Feature : Accuracy, Easy To Fit, Measure Fast Reading, Perfect Strength
Display Type : Digital
Type : Pressure Controllers
Country of Origin : India
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PID CONTROLLER
1,800 - 9,000 Per piece
10 Piece(s) (MOQ)
We are instrumental in providing clients with PID Controller that is a kind of wetted measurement and control device. The control room equipment, PID Controller, is integrated with the latest technologies and is highly acclaimed by clients all over the world. We offer the range of superior quality PID Controller at affordable rates to clients. Advantages High performance Accurate measurements Low maintenance User-friendly Used In Pharmaceutical industry Chemical industry Refineries Engineering Colleges Power Sector Government Organization Sugar industry Textile industry Dyes Intermediates Food Industry Fertilizer industry Soil industry Paper industry Pulp industry
Material : Plastic
Power Source : Electric
Certification : CE Certified
Feature : High Accuracy, Light Weight, Stable Performance
Voltage : 220V
Display Type : Digital
Type : Pid Controllers
Country of Origin : India
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Digital PH Meter
18,000 - 76,500 Per Piece
10 Piece (MOQ)
A digital pH meter is an electronic instrument used to measure the acidity or alkalinity of a liquid. It measures the concentration of hydrogen ions (H+) in the liquid, which determines its pH level. A lower pH indicates a more acidic solution, while a higher pH indicates a more basic or alkaline solution. Here's a detailed explanation of digital pH meters with their specifications: Components of a Digital pH Meter: · Electrode: The most crucial component, it consists of a glass bulb that is sensitive to hydrogen ions. The bulb is filled with a reference solution and has a silver chloride (AgCl) reference electrode in contact with the solution. When the electrode is submerged in a liquid, an electrical potential is generated between the reference electrode and the hydrogen ions in the liquid. Digital PH Meter Electrode · Reference Electrode: Maintains a stable electrical potential within the meter. · Converter: Converts the electrical signal from the electrode into a pH reading. · Display: Shows the measured pH value in a digital format. · Temperature Probe (Optional): Some meters have a built-in temperature probe to account for temperature variations that can affect pH readings. · Calibration Solutions: Buffers with known pH values used to calibrate the meter for accurate readings. Specifications to Consider When Choosing a Digital pH Meter: · pH Range: The range of pH values the meter can measure (typically from 0 to 14 pH). · Accuracy: The level of precision in the pH readings (usually specified in ±pH units). · Resolution: The smallest difference in pH that the meter can detect (often 0.01 pH or 0.1 pH). · Calibration: The number of calibration points the meter allows (typically 1 to 3 points). More calibration points generally improve accuracy. · Temperature Compensation: Automatic or manual adjustment for temperature variations affecting readings. · Data Logging and Memory (Optional): Some meters can store readings for later analysis or transfer to a computer. · Electrode Type: Consider refillable, gel-filled, or solid-state electrodes depending on your needs and budget. Refillable electrodes offer higher accuracy but require more maintenance. · Durability and Portability: Think about the meter's housing material, weight, and portability for your application. Applications of Digital pH Meters: · Hydroponics and Gardening: Monitoring nutrient solution pH for optimal plant growth. · Swimming Pools and Spas: Maintaining proper pH levels for disinfection and swimmer comfort. · Aquariums: Ensuring suitable pH levels for fish and aquatic life. · Food and Beverage Industry: Monitoring pH during food processing and production to ensure quality and safety. · Chemical Industry: Measuring pH levels in various chemical solutions for control and analysis. · Environmental Monitoring: Testing the pH of water bodies to assess water quality. · Scientific Research: Measuring pH in various experiments and investigations. Using a Digital pH Meter: 1. Calibrate the meter with standard buffer solutions according to the manufacturer's instructions. 2. Turn on the meter and allow it to warm up if necessary. 3. Rinse the electrode with distilled water and blot it dry with a lint-free paper. 4. Immerse the electrode in the liquid to be measured. 5. Stir the liquid gently to ensure good contact with the electrode. 6. Wait for the reading to stabilize on the display. 7. Record the pH reading and rinse the electrode again for storage. Here are some additional tips for using a digital pH meter: · Always follow the manufacturer's instructions for your specific meter model. · Use fresh calibration buffers regularly. · Store the electrode properly in the recommended storage solution when not in use. · Clean the electrode regularly according to the manufacturer's recommendations. By understanding the specifications and proper use of digital pH meters, you can ensure accurate and reliable pH measurements in various applications.
Material : Mild Steel
Color : Silver
Automatic Grade : Automatic
Power Source : Electric
Application : Indsustrial Usage
Certification : CE Certified
Feature : Accuracy, Durable, Light Weight, Low Power Comsumption, Stable Performance
Display Type : Digital
Type : Digital Ph Meters
Country of Origin : India
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Open Channel Flow Meter
50,000 - 150,000 Per Piece
Open Channel Ultrasonic Flow MeterExclusive sensor for Open Channel flowHigh accuracy, high stabilityDownloading logging data by USBData logging for long periodsimple structure Open channel ultrasonic is a flow measurement device best suited for storage tanks and open channels flow. It has a local display with buttons for quick and easy commissioningTemperature compensation is integrated and can be equipped with an external sensor for dynamic temperatrue compensation.The automatic false eacho detection toghther with easy set up makes it reliable and trustworthy.The measured level value is converted into the rate of flow inspecific weirs therefore the accurate level value is very important.The measured flow information saves in memoery which can be downloaded by USB or transmitted by the digital communication such RS 485 or Modbus, the built EEPORM digital memory makes sure that the data will not lost in case of power failure Main Specification :Measurement method Ultrasonic Non-ContactingMeasurement Range 0.1l/s〜9999m3/sCumulative Flow 99999999m3Display LCD displays the instantaneous flow and cumulative Flow Ambient temp. : -30°C ~ +70°CPower Supply : 100-230VACBlind area : 0.25m〜0.5mDistance precision : 0.3%( standard condiDistance resolution 1 MMFlow precision : 1%〜5%( subject to the type of weir plate)Pressure : Less than 4 atmosphere pressureAnalog output : 4〜20mADigital output : RS485、Modbus agreement or customized agreementPower voltage : DC24V/AC220V,built-in lightning proof device AmbientIP Protection IP 65 Salient Features:With the die casting aluminum alloy waterproof and explosion-proof shell, be explosion-proof and safe.For the circuit design, high-quality power modules are selected from the power supply and highly stableand reliably imported devices are used as its components. It can fully replace imported foreign meters ofthe same type.Patent sonic-wave intelligent technology software can make intelligent zed echo analysis. It needs neither debugging nor other special steps. This technology has functions of dynamic thinking and dynamican alysis.Our sonic-wave intelligent patent technology improves the precision (up to 0.3%) greatly. It can resist various interference waves.This product is a kind of non-contact instrument. As it doesn’t contact the liquid directly, the failure rate is low. This product is designed with different installation methods. The user can make calibration independently as described in the manual All incoming and outgoing lines have lightning proof and short-circuit proof functions.
Brand Name : Soham
Material : Mild Steel
Finishing : Polished
Driven Type : Electric
Shape : Rectangular
Color : Grey Blue
Power : 24VDC Or 220VAC
Pressure : Low Pressure
Operating Type : Automatic
Usage : Industrial, Laboratory, Chemical Flow Measurement, Water And Chemicals, ETP/STP/WSTP/CTP
Voltage : 110V
Packaging Type : Carton Box
Type : Turbine Flow Meter
Phase : Single Phase
Country of Origin : India
Display : Local
Corrosion Resistance : Yes
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Online Analyzer
1 Per Piece
10 Piece (MOQ)
We offer On-line Analyzer that is designed to give high performance and caters to the requirement of diverse process control instrument applications. We offer superior variety of On-line Analyzer that is highly praised for superior analytical accuracy and durability among clients all over the world. Today, we are listed as one of the prime On-line Analyzer Manufacturers and Exporters. Highlighting Features High accuracy Effectual functioning Dependable Low maintenance cost Compact design Used In Power Sector Pharmaceutical industry Government Organization Food industry Sugar industry Textile industry Dyes Intermediates Drug industry Fertilizer industry Soil industry
Color : Plastic
Application : Industrial Use
Feature : Accuracy,Digital Display,Highly Competitive
Type : On Line ANALYZER
Country of Origin : India,India
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OIL METERING SKID
100,000 - 10,000,000 Per piece
10 piece (MOQ)
An oil flow metering skid is a pre-engineered and assembled unit designed to precisely measure the flow rate and other properties of crude oil or refined petroleum products. Similar to gas flow metering skids, they offer a compact, modular solution for accurate and reliable oil flow measurement in various industrial applications. Components: · Flow Meter: The heart of the skid, responsible for measuring oil flow rate. Common types include: o Positive Displacement (PD) Meters: Accurate for various oil viscosities, good repeatability. o Coriolis Mass Flow Meters: High accuracy, measures mass flow rate directly, suitable for various oil types. o Turbine Flow Meters: Suitable for cleaner, less viscous oils. (Selection depends on oil type, accuracy requirements, and other factors) · Strainers: Remove larger particles from the oil stream to protect the flow meter and other instruments. · Temperature Sensor: Measures oil temperature for flow rate correction and density calculations. · Pressure Transmitters: Convert oil pressure into an electrical signal for monitoring and recording. · Flow Computer (Optional): Calculates oil volume or mass flow rate based on meter readings, temperature, and pressure data. May also provide data logging and alarming functionalities. · Isolation Valves: Allow isolating the flowmeter for maintenance or calibration without interrupting the main oil flow. · Control Valves (Optional): Used for flow regulation or diverting oil streams within a process. · Piping and Instrumentation: Connecting all components with proper valves, gauges, and safety features. · Skid Structure: A sturdy frame that houses and protects all the components, often made from weatherproof steel. Specifications: · Oil Type: The specific oil the skid is designed for (e.g., crude oil, diesel, gasoline). · Flow Rate Range: The range of flow rates the skid can accurately measure. · Accuracy: Expressed as a percentage of reading (% of reading) or reading plus/minus a fixed value. Typical accuracy for good quality skids is ±0.5% to ±2% of reading. · Pressure Rating: The maximum pressure the skid and its components can withstand. · Temperature Rating: The range of temperatures the skid can function within, considering both ambient and oil temperature. · Output Signal: The electrical signal generated by the skid, typically a 4-20mA current loop or 0-10V voltage signal representing flow rate or other parameters. · Control System (Optional): Skids can be integrated with a control system for remote monitoring, data logging, and control of valves or other equipment. · Safety Features: Skids typically include pressure relief valves, leak detection systems, and other safety features to ensure safe operation, especially for flammable liquids like oil. Benefits of Oil Flow metering Skids: · Pre-engineered and Packaged: Saves time and engineering costs compared to building a system from scratch. · Compact and Modular Design: Easy to transport, install, and commission. · Accurate Measurement: Provides reliable flow rate data for custody transfer, process control, and optimization. · Weatherproof and Rugged: Designed for harsh outdoor environments. · Safety Features: Offers built-in safety measures for personnel and equipment protection. Applications of Oil Flow metering Skids: · Oil Production and Transportation: Measuring flow rates for custody transfer, pipeline monitoring, and production allocation. · Oil Refining: Monitoring and controlling oil flow rates within various refinery processes. · Fuel Oil Delivery: Metering fuel oil for industrial or commercial applications. · Petrochemical Plants: Measuring flow rates of various oil products within petrochemical processes. · Tank Farms: Monitoring oil inventory levels and transfer operations. By understanding these details and specifications, you can select an oil flowmetering skid that meets your specific needs for accurate and reliable oil flow measurement in your industrial application.
Material : Iron
Color : Silver
Condition : New
Power : 3-5kw
Application : Industrial
Certification : CE
Voltage : 220V
Type : Metering
Country of Origin : India
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Oil Flow Meter
1,000 - 100,000 Per Piece
10 Piece (MOQ)
Oil flow meter we are involved in the manufacturing and exporting of flow meters that are integrated with advance technology for better performance. These flow meters are widely acclaimed by the clients for their distinctive features. We offer flow meters in diverse specifications to cater the needs of the domestic as well as international market. Salient features • high durability • reliability • precision engineering • accurate measurements range of flow meters includes • pd meters • turbine meters • orifice meters • carioles meters • ultrasonic meters • paddle wheel flow meter • electromagnetic flow meter • mass flow meter • thermal mass flow meter • insertion flow meter
Material : Mild Steel
Finishing : Polished
Driven Type : Battery
Color : Grey Blue
Pressure : Medium Pressure
Operating Type : Automatic
Voltage : 220V
Packaging Type : Carton Box
Country of Origin : India
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METERING SKID
100,000 - 10,000,000 Per Nos
10 Nos (MOQ)
Metering Skids: Pre-Engineered Solutions for Accurate Flow Measurement In various industrial processes and commercial applications, accurate measurement of fluid or gas flow is critical. Metering skids offer a pre-engineered and pre-assembled solution for this purpose. These compact and modular units integrate all the necessary components for reliable flow measurement, making them a popular choice across diverse industries. This comprehensive guide delves into the world of metering skids, exploring their components, specifications, benefits, and applications. By understanding these details, you can determine if a metering skid is the right solution for your specific flow measurement needs. Components of a Metering Skid A metering skid typically consists of the following key components: · Flow Meter: The heart of the skid, responsible for measuring the flow rate of the fluid or gas. The type of flow meter chosen depends on several factors, including: o Fluid/Gas Type: Different flow meters are suitable for various fluids and gases. Common options include: § Positive Displacement (PD) Meters: Accurate for various fluids, good repeatability (common for liquids). § Coriolis Mass Flow Meters: High accuracy for various fluids and gases, measures mass flow rate directly. § Turbine Flow Meters: Suitable for clean, less viscous liquids and gases. § Ultrasonic Flow Meters: Non-invasive option for clean liquids and gases (less common due to potential accuracy limitations for custody transfer). o Accuracy Requirements: Accuracy levels vary between different flow meter types. o Flow Rate Range: The skid should have a flow meter capable of handling the expected flow rate range for your application. · Temperature Sensor: Measures fluid or gas temperature, crucial for accurate volume or mass flow rate calculations, as temperature affects fluid density. · Pressure Transmitter: Measures fluid or gas pressure, used for flow rate calculations and potential leak detection. · Flow Computer (Optional): Processes data from the flow meter, temperature sensor, and pressure transmitter. It calculates the volume or mass of fluid/gas transferred based on relevant standards and equations. May also provide data logging and alarming functionalities. · Control Valves (Optional): Used for flow regulation or diverting fluid/gas streams within a process. · Piping and Instrumentation: High-quality piping with proper valves, gauges, and safety features to ensure safe and reliable operation. · Skid Structure: A sturdy, weatherproof steel frame that houses and protects all the components, allowing for easy transportation and installation. Specifications to Consider When Selecting a Metering Skid Several key specifications influence the selection of a metering skid for your application: · Fluid/Gas Type: Ensuring the skid and its components are compatible with the specific fluid or gas you are measuring. · Flow Rate Range: The skid should be able to handle your expected minimum and maximum flow rates accurately. · Accuracy: The required level of accuracy depending on your application's needs. Custody transfer applications demand higher accuracy than simple process monitoring. · Pressure Rating: The maximum pressure the skid and its components can withstand without failure, exceeding your operating pressure. · Temperature Rating: The range of temperatures the skid can function within, considering both ambient and fluid/gas temperature. · Output Signal: The electrical signal generated by the skid, typically a 4-20mA current loop or 0-10V voltage signal representing flow rate or other parameters. This signal can be integrated with data acquisition systems. · Control System Integration (Optional): Skids may be designed to integrate with a control system for remote monitoring, data logging, and control of valves or other equipment. · Safety Features: Skids typically include pressure relief valves, leak detection systems, and other safety features to ensure safe operation, especially for flammable liquids or high-pressure applications. · Customization: Skid manufacturers can customize units based on specific project requirements. This may include adding components like flow conditioners for better flow measurement, samplers for fluid quality analysis, or additional pressure and temperature sensors for detailed calculations. Benefits of Using Metering Skids Metering skids offer several advantages over building a flow measurement system from scratch: · Pre-engineered and Pre-assembled: Saves time and engineering costs compared to sourcing and assembling individual components. · Compact and Modular Design: Easy to transport, install, and commission, minimizing downtime and disruption. · Accurate Measurement: Skids are designed and calibrated to provide reliable flow data, crucial for process control, inventory management, and custody transfer applications. · Weatherproof and Rugged: Built for harsh outdoor environments, ensuring reliable operation under various conditions. · Safety Features: Offers built-in safeguards to minimize risks during operation and potential fluid leaks. · Customization: Skids can be customized to meet specific application needs, providing a versatile solution. Applications of Metering Skids Metering skids find application in a wide range of industries due to their versatility and ability to measure various fluids and gases accurately. Here are some prominent examples: · Oil and Gas Production: o Custody transfer metering skids ensure precise measurement of crude oil, refined products, and natural gas during production, transportation, and refining processes. o They play a vital role in accurate billing and allocation of resources between producers, transporters, and refiners. · Chemical Processing: o Metering skids are used to monitor and control the flow rates of various chemicals within a process plant. o Accurate flow measurement ensures efficient use of chemicals, optimizes production processes, and minimizes waste. · Water and Wastewater Treatment: o Skids are employed to measure water flow rates at various stages of treatment plants. o This data is crucial for optimizing water treatment processes, ensuring proper chemical dosing, and monitoring compliance with environmental regulations. · Food and Beverage Industry: o Metering skids precisely measure the flow of ingredients like syrups, oils, and water within production facilities. o Accurate flow data ensures consistent product quality, recipe adherence, and efficient production processes. · Power Generation: o Skids are used to measure the flow rates of fuel gas, cooling water, and other fluids within power plants. o This data is critical for efficient power generation, optimizing fuel consumption, and ensuring proper plant operation. · Petrochemical Plants: o Metering skids play a crucial role in measuring the flow rates of various petroleum products within petrochemical processes. o Accurate flow data is essential for process control, product quality assurance, and efficient resource utilization. · Fuel Dispensing: o Skids can be used in bulk fuel storage facilities and commercial fueling stations to measure fuel dispensed to vehicles or storage tanks. o This ensures accurate sales records and inventory management. · Liquefied Petroleum Gas (LPG) Transfer: o Metering skids are employed for precise measurement of LPG during loading and unloading operations at terminals and during distribution to retailers. o Accurate flow data is essential for fair transactions and proper inventory control. Additional Considerations for Metering Skids · Regulatory Compliance: In certain industries, metering skids may need to comply with specific regulations or standards set by governing bodies. These standards often dictate accuracy requirements, material selection for components in contact with the fluid, and documentation practices. · Data Acquisition and Communication: Modern metering skids can integrate with data acquisition systems and utilize communication protocols (e.g., Modbus, HART) for remote monitoring, data logging, and integration with control systems. This allows for real-time data access, improved process control, and easier data analysis. · Maintenance: Metering skids are designed for ease of maintenance, with readily accessible components. Regular calibration, filter cleaning, and overall skid maintenance are crucial for ensuring reliable and accurate flow measurement over time. Selecting the Right Metering Skid By carefully considering the factors mentioned above, you can select a metering skid that meets your specific needs. Here's a quick checklist to guide your selection process: 1. Define the fluid/gas you are measuring. 2. Determine the required flow rate range and accuracy level. 3. Consider the pressure and temperature limits of your application. 4. Evaluate the need for control system integration and data acquisition. 5. Review safety requirements and environmental regulations. 6. Explore customization options offered by skid manufacturers. 7. Research reputable skid vendors with experience in your specific industry. By following these steps and understanding the detailed functionalities of metering skids, you can make an informed decision that optimizes your flow measurement operations and ensures reliable performance within your industrial application.
Material : Mild Steel
Color : Silver
Condition : New
Power : 3-5kw
Application : Industrial
Certification : CE
Voltage : 220V
Type : Metering Skid
Country of Origin : India
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Energy Management and Cloud Services
At Soham Automation, we specialize in delivering advanced solutions to help businesses optimize their energy usage, reduce operational costs, and embrace smart technologies. Our Energy Management and Cloud Services are designed to empower industries with cutting-edge tools that streamline operations, enhance efficiency, and promote sustainability. Energy Management Solutions Energy efficiency is no longer an option—it’s a necessity. Our Energy Management Solutions enable businesses to monitor, analyze, and control their energy consumption in real time, ensuring optimal usage at all times. Features: Real-time energy tracking and analytics Intelligent automation for lighting, HVAC, and machinery IoT-enabled devices for seamless integration Customizable dashboards and reporting Benefits: Lower energy bills with reduced wastage Compliance with environmental standards Enhanced productivity through efficient resource use Industries We Serve: Manufacturing Commercial buildings Data centers Smart homes Cloud Services Our Cloud Services bring the power of connectivity and remote management to your fingertips. From energy monitoring to predictive analytics, our cloud-based platforms are designed to simplify complex operations. Key Offerings: Secure and scalable cloud storage Remote access and control via web or mobile Real-time notifications for abnormal energy patterns Advanced analytics for predictive maintenance Why Choose Our Cloud Services? Flexibility to scale as your business grows End-to-end data security with multi-layer protection Improved operational reliability with high uptime Why Soham Automation? We combine innovative technology with industry expertise to deliver tailored solutions that meet your unique requirements. With a focus on sustainability and efficiency, Soham Automation is your trusted partner for achieving energy excellence. Take the Next StepReady to revolutionize your operations? Contact us today to learn how our Energy Management and Cloud Services can transform your business.
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Turnkey Automation Systems
In the scientific and industrial world, understanding the composition and properties of materials is fundamental. Analytical instruments act as our eyes and ears into the unseen world, providing crucial insights into the chemical makeup, physical characteristics, and structure of various substances. Here's a breakdown of what analytical instruments are and the key roles they play. Function: Analytical instruments encompass a diverse range of tools used to analyze the chemical and physical properties of materials. They can be used for qualitative analysis (identifying the components of a sample) or quantitative analysis (determining the amount of each component present). These instruments play a vital role in various fields like: Chemistry Biology Physics Environmental Science Materials Science Forensics Pharmaceutical Manufacturing Food and Beverage Production Types of Analytical Instruments:The vast array of analytical instruments can be categorized based on the analytical technique they employ:Spectroscopic Techniques: These instruments analyze the interaction of light or radiation with a sample. Common examples include: Mass Spectrometry (MS): Identifies and quantifies molecules based on their mass-to-charge ratio. Atomic Absorption Spectroscopy (AAS): Measures the concentration of specific elements by analyzing the light absorbed by the sample.Ultraviolet-Visible (UV-Vis) Spectroscopy: Analyzes the absorption of ultraviolet and visible light by a sample to determine its composition.Chromatographic Techniques: These techniques separate the components of a mixture based on their interaction with a stationary phase. Common examples include: High-Performance Liquid Chromatography (HPLC): Separates and analyzes complex mixtures of liquids. Gas Chromatography (GC): Separates and analyzes volatile compounds. Electrochemical Techniques: These techniques involve measuring the electrical properties of a sample. Examples include: pH Meters: Measure the acidity or alkalinity of a solution. Conductivity Meters: Measure the ability of a solution to conduct electricity. Microscopic Techniques: These instruments provide magnified images of a sample for detailed analysis. Examples include: Optical Microscopes: Provide high-resolution images of a sample's surface features. Electron Microscopes: Offer much higher magnification than optical microscopes, allowing visualization of structures at the atomic level. Benefits of Using Analytical Instruments:Improved Quality Control: Allow manufacturers to ensure their products meet specific quality standards. Environmental Monitoring: Help monitor air, water, and soil quality for contaminants.Medical Diagnosis: Assist doctors in diagnosing diseases by analyzing blood, tissue, and other biological samples.Material Characterization: Enable scientists and engineers to understand the properties of new materials.Forensic Investigations: Provide valuable evidence for criminal investigations.Advancement of Scientific Research: Play a critical role in scientific discoveries and innovations.Choosing the Right Instrument: Selecting the appropriate analytical instrument depends on various factors: The type of sample being analyzed: Solid, liquid, or gas? The specific information desired: Composition, structure, or physical properties? The desired level of accuracy and sensitivity.Cost and budgetary limitations.The Future of Analytical Instruments:The field of analytical instrumentation is constantly evolving. Here are some trends to watch for: Miniaturization: Development of smaller, portable instruments for on-site analysis.Increased Automation: Instruments with greater automation capabilities for faster and more efficient analysis.Improved Sensitivity: Ability to detect even smaller quantities of analytes.Integration with Artificial Intelligence: Utilizing AI for data analysis and interpretation.Conclusion:Analytical instruments are the unsung heroes of science and industry, providing us with the power to unlock the secrets hidden within materials. By understanding their diverse functionalities and the ever-evolving landscape, we can leverage these tools to advance research, ensure quality, and solve problems across various fields.
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Turnkey Projects
1,000 - 1,000,000 Per unit
10 Piece (MOQ)
Planning & Conceptual Design, Procurement, Testing, Installation, Commissioning, System Support, Training, Calibration.
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