The Oxymitter™ 4000 In Situ Oxygen Transmitter is the world's first in situ, zirconium oxide-based oxygen transmitter for flue gas measurement with an explosion-proof rating. These oxygen measurements can be used in a control system or by a boiler operator to fine tune burner fuel/air ratios for maximum efficiency.
White paper provides description of function and application of current to pneumatic (I/P) transducers, along with operational diagrams and recommended practices.
The FLOWSIC600-XT measuring system works according to the principle of ultrasonic transit time difference measurement. This allows conclusions to be made on the gas volume flowing through based on the sound velocity transfer time. Measurement is carried out in a direct path layout to keep disturbing effects such as gas flow turbulence, dirt, moisture or interfering noises as low as possible. Two ultrasonic transducers are positioned opposite each other in a defined angle to the gas flow and operate alternately as sender and receiver.
Industry needs muscle to control process valves, dampers and feed mechanisms accurately and in response to a demand signal. Emerson’s Rosemount Analytical pneumatic power positioners have been satisfying these exacting control requirements for many years in countless applications – from steel mills to refineries – where positioning speed and accuracy are taken for granted.
Portable flow meter for measurement of compressed air, gases, and heat quanti...Classic Controls, Inc.
The FLUXUS G601 CA Energy is the ideal tool for carrying out complete energy efficiency tasks in the industry as well as within facility management by allowing the measurement of compressed air flow rates as well as the monitoring of thermal energy quantities and the flow rate determination of any kind of liquid or gaseous media with just one device.
The DUSTHUNTER C200 is a type-approved measuring device which combines the advantages
of the measuring principles of transmittance and forward scattered light. It is, therefore, ideal for
measuring very low to high dust concentrations. Automatic self-alignment optimizes the position
of the measuring beam and prevents incorrect measurement. An automated check of the zero
and reference point as well as a contamination check are on board in the device.
Smarter, self-diagnostic digital safety switches for temperature, pressure, flow, and level eliminate some of the risks associated with mechanical or pneumatic actuated devices.
Thermal dispersion mass flow transmitters measure mass flow by detecting heat dissipation from a heated surface. The sensor contains two mass balanced elements with precision matched RTDs. The reference sensor measures the process temperature (up to +400° F [+200° C]); the second RTD measures the temperature of the heated sensor. The power to the heater is varied to maintain a constant temperature difference above the reference temperature.
There is an inherent non-linear relationship between power and mass flow. A microprocessor compares the power against the calibration curve and converts the power requirements to the mass flow rate. Temperature is also measured to provide temperature compensation of the mass flow over the operating range of the instrument.
White paper provides description of function and application of current to pneumatic (I/P) transducers, along with operational diagrams and recommended practices.
The FLOWSIC600-XT measuring system works according to the principle of ultrasonic transit time difference measurement. This allows conclusions to be made on the gas volume flowing through based on the sound velocity transfer time. Measurement is carried out in a direct path layout to keep disturbing effects such as gas flow turbulence, dirt, moisture or interfering noises as low as possible. Two ultrasonic transducers are positioned opposite each other in a defined angle to the gas flow and operate alternately as sender and receiver.
Industry needs muscle to control process valves, dampers and feed mechanisms accurately and in response to a demand signal. Emerson’s Rosemount Analytical pneumatic power positioners have been satisfying these exacting control requirements for many years in countless applications – from steel mills to refineries – where positioning speed and accuracy are taken for granted.
Portable flow meter for measurement of compressed air, gases, and heat quanti...Classic Controls, Inc.
The FLUXUS G601 CA Energy is the ideal tool for carrying out complete energy efficiency tasks in the industry as well as within facility management by allowing the measurement of compressed air flow rates as well as the monitoring of thermal energy quantities and the flow rate determination of any kind of liquid or gaseous media with just one device.
The DUSTHUNTER C200 is a type-approved measuring device which combines the advantages
of the measuring principles of transmittance and forward scattered light. It is, therefore, ideal for
measuring very low to high dust concentrations. Automatic self-alignment optimizes the position
of the measuring beam and prevents incorrect measurement. An automated check of the zero
and reference point as well as a contamination check are on board in the device.
Smarter, self-diagnostic digital safety switches for temperature, pressure, flow, and level eliminate some of the risks associated with mechanical or pneumatic actuated devices.
Thermal dispersion mass flow transmitters measure mass flow by detecting heat dissipation from a heated surface. The sensor contains two mass balanced elements with precision matched RTDs. The reference sensor measures the process temperature (up to +400° F [+200° C]); the second RTD measures the temperature of the heated sensor. The power to the heater is varied to maintain a constant temperature difference above the reference temperature.
There is an inherent non-linear relationship between power and mass flow. A microprocessor compares the power against the calibration curve and converts the power requirements to the mass flow rate. Temperature is also measured to provide temperature compensation of the mass flow over the operating range of the instrument.
Process Digital Bargraph Display for Industrial Control and AutomationClassic Controls, Inc.
Commercial bargraphs are designed for use in non-nuclear environments. They may be used as HI-LO, on/off, or differential gap controllers and/or annunciators in process or other control applications. Fully programmable, these are the preferred choice for new applications, or for replacement of set point controllers, switchboard meters, other common size indicators.
Yokogawa has a long history of supplying process gas chromatographs to the oil & gas, refining and petrochemical industries around the world. The new process GC that meets the ever growing demands for analytical reliability and precision while improving the total cost-of ownership through built-in automated maintenance functions never seen before.
From the innovative 12-inch color touch screen HMI to the powerful predictive diagnostics, the GC8000 is truly a process GC for the 21st century. But the GC8000 is not just all about new electronics; it also brings a number of important innovations in gas chromatograph analytical capabilities. For the first time, parallel chromatography is made practical with the introduction of the GC Module (GCM) concept. By setting up virtual GCs within a single analyzer, all chromatograph settings, displays, and data are truly segregated for easy understanding and maintenance. There are even built-in graphical overview screens showing each of the individual GC Modules.
The GC8000 sets new standards for process gas chromatography while at the same time offering hardware and electronics that are recognized for robust and reliable operation.
Parker Balston is a division of Parker Hannifin, world’s leading diversified manufacturer of motion and control technologies and systems. Balston manufacturers industrial filters and filtration technology, replacement filter elements, compressed air dryers, nitrogen generators, and compressed air microbial detection.
Fluke Data Acquisition System Selection Guide. Hubungi PT. Siwali Swantika 02...PT. Siwali Swantika
Datasheet Fluke 1586A Super-DAQ. Datasheet Fluke 2638A Hydra Series III. Informasi lebih detail hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264
Magnetrol is a globally recognized manufacturer of level and flow measurement instrumentation and devices. Technologies include inferential and direct measurement.
Magnetrol International has launched the PULSAR Model R86 Non-Contact Radar transmitter, an advanced level control solution that offers radar technology with improved performance for a wide range of level measurement applications.
The PULSAR Model R86 is designed to provide
outstanding accuracy, reliability and safety for
virtually all process industries.
Making the best instrument selection for a flow measurement application should include an assessment of what the operators really need in order to safely and effectively run the process or perform the task related to the measurement of fluid flow.
Series One Safety Transmitter, Pressure and Temperature SwitchIves Equipment
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
The two most important design innovations on the new FT4A are the new 2nd Generation DDCSensor™ and the expanded GasSelectX® gas selection menu.
Like all Fox meters, the rugged FT4A measures gas flow rate in standard units without the need for temperature or pressure compensation.
The Vanguard WirelessHART gas detector is ideal for the monitoring of toxic and combustible gases without the need for costly and fixed wiring. With a five year battery life and one button calibration, the Vanguard detector is easy to operate and maintain.
Each Vanguard detector has a WirelessHART transceiver, an antenna, a display, a long life power module, a gas sensor, and a signal processor for the gas sensor. Vanguard uses a sensor architecture trademarked “Flexsense,” which allows the sensor to identify its target gas and self-configure to a Vanguard transmitter upon connection.
GE Advanced Modular Calibrator for Process Measurement InstrumentsFlow-Tech, Inc.
The DPI 620 Genii is an easy to use, rugged, and highly accurate multifunction instrument for calibrating & maintaining process instrumentation. Its modular design and functionality means it can be expanded over time and tailored to applications as needs change. With options that include HART / Fieldbus / Profibus communications, it’s a powerful, simple to use and high accuracy calibrator.
The PK200 current-to-pneumatic (I/P) converter offers a low-cost method to convert a milliamp input (4-20 or 10-50mA analog signals) to a proportional pneumatic (air pressure) output. The unit is designed for a broad range of process control applications, including those that feature pneumatic actuating equipment. The PK200 features built-in stainless steel input/output gauges.
Dual chamber liquid level measuring system with magnetic level indication and guided wave radar combined into a single assembly.
The VEGAMAG 62 series combination magnetic level indicator and bypass bridle chamber provides the benefits of both visual indication and process control by using the proven technology of the VEGAFLEX to provide the most complete visual and guided microwave radar package in the industry. The VEGAMAG 62 can be configured to mount to most standard tank process connections as well as applications where interface measurements are needed.
Inline and Insertion models of the Azbil Multivariable Vortex Mass Flow Meters employ three sensing elements in a single meter; a vortex shedding velocity sensor, an RTD temperature sensor, and a solid state pressure transducer. This unique combination allows accurate mass flow measurements of gases, liquids and steam.
Thermal dispersion switch for flow, level, interface, or temperatureFlow-Tech, Inc.
FCI liquid level/interface switches feature thermal dispersion technology in which the temperature difference between the two RTDs is greatest in the absence of liquid and decreases when the level element is submerged, cooling the heated RTD.
FCI flow switches feature thermal dispersion technology in which the temperature difference is greatest in a no-flow condition and decreases as flow increases, cooling the heated RTD. Changes in flow velocity directly affect the extent to which heat dissipates and, in turn, the magnitude of the temperature difference between the RTDs.
Turbine flow meters for gas service from HofferFlow-Tech, Inc.
Hoffer Flow Controls manufactures high precision turbine flowmeters for the cryogenic industry and is the world leader in turbine flowmeter technology for the measurement of clean liquids and gases throughout the processing industries.
The MagWave features two separate close-coupled chambers for the level indicator float and the Guided Wave Radar antenna. Using single probe radar transmitters in the standard 1-1/2 inch chamber provides the measurement capabilities of coaxial style probes without the potential for fouling due to buildup. The separate float chamber allows the float to travel unobstructed throughout the range of measurement. Redundant level control can be achieved by adding a magnetostrictive transmitter or switches to the float chamber.
Process Digital Bargraph Display for Industrial Control and AutomationClassic Controls, Inc.
Commercial bargraphs are designed for use in non-nuclear environments. They may be used as HI-LO, on/off, or differential gap controllers and/or annunciators in process or other control applications. Fully programmable, these are the preferred choice for new applications, or for replacement of set point controllers, switchboard meters, other common size indicators.
Yokogawa has a long history of supplying process gas chromatographs to the oil & gas, refining and petrochemical industries around the world. The new process GC that meets the ever growing demands for analytical reliability and precision while improving the total cost-of ownership through built-in automated maintenance functions never seen before.
From the innovative 12-inch color touch screen HMI to the powerful predictive diagnostics, the GC8000 is truly a process GC for the 21st century. But the GC8000 is not just all about new electronics; it also brings a number of important innovations in gas chromatograph analytical capabilities. For the first time, parallel chromatography is made practical with the introduction of the GC Module (GCM) concept. By setting up virtual GCs within a single analyzer, all chromatograph settings, displays, and data are truly segregated for easy understanding and maintenance. There are even built-in graphical overview screens showing each of the individual GC Modules.
The GC8000 sets new standards for process gas chromatography while at the same time offering hardware and electronics that are recognized for robust and reliable operation.
Parker Balston is a division of Parker Hannifin, world’s leading diversified manufacturer of motion and control technologies and systems. Balston manufacturers industrial filters and filtration technology, replacement filter elements, compressed air dryers, nitrogen generators, and compressed air microbial detection.
Fluke Data Acquisition System Selection Guide. Hubungi PT. Siwali Swantika 02...PT. Siwali Swantika
Datasheet Fluke 1586A Super-DAQ. Datasheet Fluke 2638A Hydra Series III. Informasi lebih detail hubungi PT. Siwali Swantika, Jakarta Office : 021-45850618 atau Surabaya Office : 031-8421264
Magnetrol is a globally recognized manufacturer of level and flow measurement instrumentation and devices. Technologies include inferential and direct measurement.
Magnetrol International has launched the PULSAR Model R86 Non-Contact Radar transmitter, an advanced level control solution that offers radar technology with improved performance for a wide range of level measurement applications.
The PULSAR Model R86 is designed to provide
outstanding accuracy, reliability and safety for
virtually all process industries.
Making the best instrument selection for a flow measurement application should include an assessment of what the operators really need in order to safely and effectively run the process or perform the task related to the measurement of fluid flow.
Series One Safety Transmitter, Pressure and Temperature SwitchIves Equipment
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
The two most important design innovations on the new FT4A are the new 2nd Generation DDCSensor™ and the expanded GasSelectX® gas selection menu.
Like all Fox meters, the rugged FT4A measures gas flow rate in standard units without the need for temperature or pressure compensation.
The Vanguard WirelessHART gas detector is ideal for the monitoring of toxic and combustible gases without the need for costly and fixed wiring. With a five year battery life and one button calibration, the Vanguard detector is easy to operate and maintain.
Each Vanguard detector has a WirelessHART transceiver, an antenna, a display, a long life power module, a gas sensor, and a signal processor for the gas sensor. Vanguard uses a sensor architecture trademarked “Flexsense,” which allows the sensor to identify its target gas and self-configure to a Vanguard transmitter upon connection.
GE Advanced Modular Calibrator for Process Measurement InstrumentsFlow-Tech, Inc.
The DPI 620 Genii is an easy to use, rugged, and highly accurate multifunction instrument for calibrating & maintaining process instrumentation. Its modular design and functionality means it can be expanded over time and tailored to applications as needs change. With options that include HART / Fieldbus / Profibus communications, it’s a powerful, simple to use and high accuracy calibrator.
The PK200 current-to-pneumatic (I/P) converter offers a low-cost method to convert a milliamp input (4-20 or 10-50mA analog signals) to a proportional pneumatic (air pressure) output. The unit is designed for a broad range of process control applications, including those that feature pneumatic actuating equipment. The PK200 features built-in stainless steel input/output gauges.
Dual chamber liquid level measuring system with magnetic level indication and guided wave radar combined into a single assembly.
The VEGAMAG 62 series combination magnetic level indicator and bypass bridle chamber provides the benefits of both visual indication and process control by using the proven technology of the VEGAFLEX to provide the most complete visual and guided microwave radar package in the industry. The VEGAMAG 62 can be configured to mount to most standard tank process connections as well as applications where interface measurements are needed.
Inline and Insertion models of the Azbil Multivariable Vortex Mass Flow Meters employ three sensing elements in a single meter; a vortex shedding velocity sensor, an RTD temperature sensor, and a solid state pressure transducer. This unique combination allows accurate mass flow measurements of gases, liquids and steam.
Thermal dispersion switch for flow, level, interface, or temperatureFlow-Tech, Inc.
FCI liquid level/interface switches feature thermal dispersion technology in which the temperature difference between the two RTDs is greatest in the absence of liquid and decreases when the level element is submerged, cooling the heated RTD.
FCI flow switches feature thermal dispersion technology in which the temperature difference is greatest in a no-flow condition and decreases as flow increases, cooling the heated RTD. Changes in flow velocity directly affect the extent to which heat dissipates and, in turn, the magnitude of the temperature difference between the RTDs.
Turbine flow meters for gas service from HofferFlow-Tech, Inc.
Hoffer Flow Controls manufactures high precision turbine flowmeters for the cryogenic industry and is the world leader in turbine flowmeter technology for the measurement of clean liquids and gases throughout the processing industries.
The MagWave features two separate close-coupled chambers for the level indicator float and the Guided Wave Radar antenna. Using single probe radar transmitters in the standard 1-1/2 inch chamber provides the measurement capabilities of coaxial style probes without the potential for fouling due to buildup. The separate float chamber allows the float to travel unobstructed throughout the range of measurement. Redundant level control can be achieved by adding a magnetostrictive transmitter or switches to the float chamber.
Companies in the process industry need the ability to visually monitor liquid levels in vessels (boilers, storage tanks, processing units, etc.). Traditionally, armored glass sight gauges have been used. However, many companies want an alternative to sight gauges to avoid problems such as breakage, leaks, or bursting at high pressures and extreme temperatures. In addition, the visibility of the sight glass can be poor and often affected by moisture, corrosion, or oxidation.
Magnetic level indicators (MLIs) do not have the shortcomings of glass sight gauges and are suitable for a wide variety of installations.
The EC900 offers unsurpassed accuracy, reliability and flexibility
under the most demanding on-line operating conditions. Systech Illinois has long been recognised worldwide as a leader in oxygen analysis. Utilising a variety of specially engineered electrochemical fuel cells, the EC900 Oxygen Analysers are designed to monitor oxygen within most industrial gases and atmospheres.
Intrinsically Safe ATEX, unsurpassed certified oxygen analyser for all hazardous areas. The EC91 Process Oxygen Transmitter will detect levels of oxygen as low as 1ppm, up to higher percent levels and can be used on most industrial gases and atmospheres.
Digital sensor for measuring dissolved oxygen. Longterm-stable sensor for water and wastewater applications. . Email: lam.nguyen@vietan-enviro.com HP: 0945 293292
Oxymax cos51 d endress+hauser datasheet-measurement of the dissolved oxygenENVIMART
Oxymax cos51 d endress+hauser datasheet-measurement of the dissolved oxygen - Endress+Hauser - Envimart JSC - www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường.
The PrevEx is flammability analyzer is used to determine lower flammable limit monitoring (LFL/LEL) to sense and protect against the accumulation of combustible and hazardous vapors.
Utilizing an Aluminum Oxide sensor 600 times more sensitive than conventional sensors
The 8800 series uses field proven aluminum oxide (Al2O3) sensing technology to accurately detect trace moisture on either a continuous or spot checking basis.
The 542 is a versatile, programmable gas
analyser, based on the principles of
thermal conductivity, capable of measuring
almost any combination of gases; hydrogen, helium, oxygen, carbon dioxide, methane, carbon monoxide, argon, nitrogen and many others.
Ceraliquid CPS41 and CPS41D with ceramic diaphragm and liquid KCl electrolyte, optional built-in temperature sensor. Email: lam.nguyen@vietan-enviro.com HP: 0945 29329
GCEM 40 series extractive gas analyser codel datasheetENVIMART
GCEM 40 series extractive gas analyser codel datasheet - CODEL - Envimart JSC - www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường.
The Ingold 6800 G O2 sensor series for gas measurement provides high operational availability together with excellent measurement performance. Without the need for an expensive gas sample conditioning, the sensor can be installed directly in the process and sensor maintenance or replacement can be performed without process interruption. Mettler-Toledo Ingold offers a unique easy-to-use and reliable solution for challenging applications like N2 blanketing, inertization and off-gas monitoring in ex or non-ex applications.
MRU SWG 100 Fixed Biogas Analyzer is the rugged industrial analyzer to use with biogas & biomethane plants, landfill, water treatment as well as coal seam gas sites. Request a FREE quote today.
We specialise in Bioaerosols, Sick Building Syndrome, Fenceline Monitoring, Urban air quality, Industrial air quality, construction air quality, CEMS, CAMS and much more.
www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường. Chuyên cung cấp vật tư cho dự án xử lý nước sạch, nước thải và môi trường. Envimart luôn đồng hành, tin cậy với đối tác nhà thầu, nhà tích hợp và người sử dụng.
PID is short for "proportional plus integral and derivative control", the three actions used in managing a control loop. Process loop controllers use one, two or all three of these to optimally control the process system. PID control is used in a wide variety of applications in industrial control and process system management.
Courtesy of Eurotherm. Eurotherm offers a wide range of single & multi-loop PID controllers.
Smokeless Flares
Smokeless flares incinerate flammable hazardous vent gas with the assistance of supplemental high-velocity air or steam to prevent the formation of soot or smoke. Excessive injection of air or steam reduces combustion efficiency, resulting in the release of hazardous VOC gases. Meanwhile, inadequate injection of air or steam results in the formation of undesirable soot and smoke. Although modern flares are designed for high flow rates associated with an emergency condition, they most commonly operate at high-turn-down, low-flow rates, making it challenging for the flare to operate at optimal combustion efficiency.
Pilot Monitor
Flammable vent gases are ignited by a pilot flame when released into the atmosphere by refineries, natural gas processing plants, and petrochemical plants. The proper incineration of these gases is a critical safety and environmental concern. Therefore, it is essential to confirm that the pilot is lit at all times. Monitoring via a thermocouple is common, however, failures frequently occur and replacements can require costly process shutdowns. Remote sensing IR technology (PM) is the superior alternative.
Flame Intensity Monitors
Williamson Flame Intensity Monitors (FI) are the single-wavelength sensors of choice for a variety of flare applications where the more sophisticated dual-wavelength flare products are not appropriate or are not required.
Some materials can be difficult or near impossible to measure with precision using single-wavelength or ratio pyrometers because of their complex emissivity characteristics. These types of materials are called non-greybody materials and their emissivity varies with wavelength.
Multi-wavelength pyrometers use application specific algorithms to characterize infrared energy and emissivity across the measured wavelengths to accurately calculate both the actual temperature and emissivity of these complex non-greybody materials.
The 3000 series gives you high accuracy, fast response time and low temperature drift – without compromise. All 6 mm devices can be mounted on a standard DIN rail or power rail with no air gap separation.
Bronkhorst has over 35 years experience in designing and manufacturing precise and reliable measurement and control equipment and the widest range of mass flow and pressure meters and controllers available on the market.
Bronkhorst offers innovative solutions for many different applications across a great many different markets, and has a particular strong wealth of knowledge and reputation within the plastics and rubber market.
The Coriolis measuring principle refers to the effect that a moving mass has on a body in a rotating frame of reference. The moving mass exerts an apparent force on the body, causing a deformation. This force is called the Coriolis force. It does not act directly on the body, but on the motion of the body. This principle is used in Coriolis flowmeters.
AP Tech is a manufacturer of gas handling components – primarily pressure regulators and valves. AP Tech’s competitive advantage are products that deliver specialty gases for high purity through ultra high purity applications. Starting from the source vessel to point of use and into the process tool or equipment itself, AP Tech products are known to deliver gases with uncompromising quality, performance and reliability.
The L100 Bubble-Tube Level System is a fully self contained instrument, requiring only connections to air or gas supply, dip tube and electrical power source to provide precise level indication. Because only the stationary dip tube and the purge gas come in contact with the liquid, this system is ideal for applications involving hazardous locations or liquids which are highly corrosive, viscous, hot, (molten metal), explosive, slurry type or foodstuff.
For applications where rapid transition from open to closed positions is warranted, the Mark 76 is a solid choice. Designed with a short stroke and straight through fluid path, the Mark 76 also incorporates other features to assure good service for process operations using on/off control.
Tek-Trol provides process measurement and control products for Flow, Level, Temperature and Pressure measurement and Control Valves and Analyzers systems for the Process, Power and Oil and Gas Industries.
EL-FLOW Prestige is the next generation of Bronkhorst Mass Flow Meters / Controllers for gases. Nearly all core components have been redesigned and many improvements and innovations have been incorporated. With this new series Bronkhorst introduced the “Differential Temperature Balancing” technology, ensuring a superb sensor stability.
Each ReFlexIO unit allows you to connect (2) Analog Inputs and (2) Digital Inputs which are wirelessly transferred to (2) Analog Outputs and (2) Digital Outputs on the other end. The 2 ReFlexIO 'paired' units work bi-directionally, so it's possible, for example, to turn on a relay (digital input to digital output on the other end) and get a signal back (digital input to sense replay closure returned to digital output on the original sending unit) to turn on a light telling you that the relay is indeed on.
The T2750 PAC hardware provides high-performance control with cost-effective redundancy options in a versatile modular system. Powerful instruments, the control units, and the I/O system form the basis of a complete distributed control and recording environment. This environment is capable of continuous analog, logic, sequential control, batch management, secure data recording at point of measurement, and setpoint programming.
The T2550 PAC is a high performance solution offering extremely cost effective redundancy options - making high availability viable for more of your process.
The control unit and I/O system form the basis of a complete distributed control and recording environment capable of continuous analog, logic and sequential control combined with secure data recording at point of measurement - all designed to maximize Return on Investment (ROI) from your process.
ControlAir Inc. is a leading manufacturer of precision air pressure regulators, I/P transducers, E/P transducers, P/I transducers, valve positioners, air relays, volume boosters, air filter regulators and frictionless diaphragm air cylinders.
The LowFlow JRDL Series line of diaphragm sensed, high pressure regulators have the ability to handle very high pressures and very low flows. These valves are typically used in research and sampling systems for general, corrosive and specialty gas and liquid service. Typical applications include gas chromatography and flame ionization detectors, as well as other industrial controls.
The Model TCL measures total chlorine in water, and is ideal for seawater chlorine analysis applications. The system consists of a sample conditioning unit, a sensor, and transmitter
The EL2200 series of electromagnetic flowmeters represent the state of the art for the accurate measurement for water cycle and process applications. This new generation flowmeter utilizes an innovative structure to route the electromagnetic signal generated by the electrodes, providing a flowmeter with an extremely wide measurement range. The new EL Series meters are capable of a measurement range up to 1000:1.
The new PowerVUE™ design utilizes the same rugged Hagan actuator and frame construction, combined with the accuracy and reliability of the Fisher FieldVUE DVC6000 Digital Valve Controller. The pneumatic power positioner remains the most reliable and cost-effective method of actuation. Torque ranges are from 400 ft-lbs to 4,600 ft.-lbs.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Vaccine management system project report documentation..pdfKamal Acharya
The Division of Vaccine and Immunization is facing increasing difficulty monitoring vaccines and other commodities distribution once they have been distributed from the national stores. With the introduction of new vaccines, more challenges have been anticipated with this additions posing serious threat to the already over strained vaccine supply chain system in Kenya.
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
Event Management System Vb Net Project Report.pdfKamal Acharya
In present era, the scopes of information technology growing with a very fast .We do not see any are untouched from this industry. The scope of information technology has become wider includes: Business and industry. Household Business, Communication, Education, Entertainment, Science, Medicine, Engineering, Distance Learning, Weather Forecasting. Carrier Searching and so on.
My project named “Event Management System” is software that store and maintained all events coordinated in college. It also helpful to print related reports. My project will help to record the events coordinated by faculties with their Name, Event subject, date & details in an efficient & effective ways.
In my system we have to make a system by which a user can record all events coordinated by a particular faculty. In our proposed system some more featured are added which differs it from the existing system such as security.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Forklift Classes Overview by Intella PartsIntella Parts
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COLLEGE BUS MANAGEMENT SYSTEM PROJECT REPORT.pdfKamal Acharya
The College Bus Management system is completely developed by Visual Basic .NET Version. The application is connect with most secured database language MS SQL Server. The application is develop by using best combination of front-end and back-end languages. The application is totally design like flat user interface. This flat user interface is more attractive user interface in 2017. The application is gives more important to the system functionality. The application is to manage the student’s details, driver’s details, bus details, bus route details, bus fees details and more. The application has only one unit for admin. The admin can manage the entire application. The admin can login into the application by using username and password of the admin. The application is develop for big and small colleges. It is more user friendly for non-computer person. Even they can easily learn how to manage the application within hours. The application is more secure by the admin. The system will give an effective output for the VB.Net and SQL Server given as input to the system. The compiled java program given as input to the system, after scanning the program will generate different reports. The application generates the report for users. The admin can view and download the report of the data. The application deliver the excel format reports. Because, excel formatted reports is very easy to understand the income and expense of the college bus. This application is mainly develop for windows operating system users. In 2017, 73% of people enterprises are using windows operating system. So the application will easily install for all the windows operating system users. The application-developed size is very low. The application consumes very low space in disk. Therefore, the user can allocate very minimum local disk space for this application.
Design and Analysis of Algorithms-DP,Backtracking,Graphs,B&B
In Situ Oxygen Transmitter For Combustion Monitoring
1. Visit our website at www.raihome.com
On-line ordering available.
Product Data Sheet
PDS 340.B01
May, 2010 Oxymitter™
• Outstanding accuracy
• Electronics mounted to probe
or separate
• Optional Xi advanced electronics
– large backlit LCD display
– advanced software features
– Wireless - via THUMTM
Adaptor
• Adaptable to any existing O2
probe
installation
• Advanced sensor diagnostics
– alarm indicates when calibration
is recommended
• Optional explosion-proof ratings
– see PDS 106-340.C01
• Digital HART®
or FOUNDATION™
fieldbus communications
– AMS/PlantWeb®
compatible
• Fully field-repairable
• Variable probe insertion option
In Situ Oxygen Transmitter
Integral or Remote
electronics
THE LATEST BREAKTHROUGH FOR
COMBUSTION FLUE GAS ANALYSIS
The Oxymitter In Situ Oxygen Transmitter was the world’s
first in situ, zirconium oxide-based oxygen transmitter for
flue gas measurement. These oxygen measurements can
be used in a control system or by a boiler operator to fine
tune burner fuel/air ratios for maximum efficiency. Ideal for:
• boilers • kilns
• process heaters • reheat furnaces
Emerson Process Management is the leader in oxygen
flue gas analyzer technology. Our in situ, zirconium oxide
oxygen analyzers have long been established as industry
standards. We’ve combined our expertise with the latest
Rosemount transmitter technology to create a truly
revolutionary package – the Oxymitter.
The Oxymitter integrates an oxygen probe and field
electronics into a single, compact package. The probe
inserts directly into a flue gas duct to measure oxygen in
combustion processes. No sampling system is required.
A NEMA 4X, IP 66 Rosemount transmitter housing mounts
directly to the probe and contains the transmitter’s
electronics, replacing common stand-alone field
electronics. This integrated design minimizes the costs of
installing separate probe cable, conduit and electronics.
The Oxymitter electronics also require 95% less power
to operate. So, its components last longer. Traditional
architecture with remote-mounted electronics is also
offered.
The HART®
protocol provides a link into Emerson Process
Management’s PlantWeb®
field-based architecture.
Instrument technicians can interface with the Oxymitter
from the control room or any location where the trans-
mitter’s signal wires terminate. Service diagnostics and
calibrations can be performed remotely with a HART
hand-held communicator or a personal computer equipped
with AMS.
The Oxymitter is fully field-repairable. The probe’s design
provides convenient access to internal probe components
so technicians can service the unit in house. The cell and
heater/thermocouple are fully field-replaceable. The
Oxymitter contains no potentiometer adjustments or
jumpers.
The Oxymitter In Situ Oxygen Transmitter operates at
process temperatures up to 1300°F (700°C), providing a
fast response with high accuracy and reliability. Available
lengths from 18 inches to 18 feet.
Optional accessories for the Oxymitter include:
– auto calibration gas sequencer
– remote, loop-powered Vacuum Fluorescent display
of oxygen reading
– high temperature accessories for temperatures
up to 1832°F (1000°C)
– flame arrestor
– abrasive shield
Now
Offered
W
ith
Xi Advanced
Electronics
Optional Xi
enhanced interface
Wireless THUMTM
Adaptor
mounts to either electronics
2. Page 2
THE OXYMITTER OXYGEN TRANSMITTER IS COMPLETELY FIELD-REPAIRABLE
VARIABLE INSERTION OPTION
Diffusion Filter and Sensor Cell Assembly
Heater/Thermocouple Assembly
• Outstanding accuracy– + or - .75% of reading or .05% O2
• Special cells for tough service in SO2
and HCL
• Rugged steel cell holder – cells will not crack
General Purpose – OXT4A/5A
• Lengths from 18” (.9m) to 18’ (5.5m)
• ANSI, DIN and special flanges (1.8m) (5.5m)
• Flat-faced (snubber), Hastelloy and Ceramic Diffusers
Electronics
• -40°F to 185°F(-40°C to 70°C) ambient temperature limit
• HART or Foundation™ fieldbus communications
• “Calibration Recommended” diagnostic
Integral to Probe
or Remote Mounted Xi Enhanced Interface
• Lowest cost of installation
• Bright gas fluorescent local operator interface (LOI)
• Thru-glass infrared pushbuttons are suitable for hazardous areas
• Easy-to-read backlit display
• Easy-to-use keypad
• IP66 (NEMA 4X) enclosure
• Advanced software features
• Loss of flame relay option turns heater off upon flame loss
The new varible insertion option permits ideal
placement of the probe into the flue gas duct.
Probe can be adjusted at any time on-line to
characterize stratification across large ducts.
3. Page 3
Advanced Features
Automatic Calibration - available with Oxymitter
or Xi electronics
Plant personnel often ask how frequently an oxygen
analyzer requires calibration. The answer is very
application-dependent based upon the fuels being burned,
normal levels of oxygen and the sulfur content in the flue
gases. The X-STREAM Xi addresses this concern by
providing an on-line diagnostic that determines when
a calibration should be conducted, eliminating many
unneeded calibrations and the technician and gas
resources they consume. The X-STREAM electronics has
an on-line impedance measurement for the sensing cell.
This feature can trigger a fully automatic calibration by
sequencing solenoids to introduce calibration gases to the
sensing cell. The Single Probe Sequencer (SPS) switches
CAL gases to a single probe, while a Multi-Probe
Sequencer (IMPS) can handle 1 to 4 probes. Many
needless calibrations based on “time in service” are
eliminated. A contact closure notifies the control room
when a calibration is taking place. The oxygen output
signal can be held at its last value, or released during
calibration. The X-STREAM can also initiate calibrations
by traditional methods:
• Contact closure from the user’s control room
• Time since last calibration feature – established by
the autocalibration system
• Xi enhanced interface
• HART/AMS
Single Probe Sequencer (SPS)
Oxymitter or Xi Enhanced
Interface and Advanced
Feature Electronics
Optional Wireless THUM Adaptor
Transmit the O2
signal, along with all HART information.
Model 375/475
Handheld Communicator
4. Extended Process Temperature Range
to 800°C (1562°F)
The X-STREAM oxygen analyzer employs a heater and
thermocouple to maintain a temperature setpoint at 736°C
(1357°F). Temperature control is maintained within ±1°C
to process temperatures of about 705°C (1300°F). This is
satisfactory for most applications, but excursions to higher
temperatures can occur in many processes. In these
instances, the heater is turned off and the process
temperature is utilized to heat the sensing cell.
The oxygen reading is adjusted immediately to
compensate for the varying process temperatures. It
should be noted that cell life will be reduced by
continuous operation at temperatures above 705°C
(1300°F). If process temperatures are expected to
continuously be above 705°C, we recommend the use of
a bypass or probe mounting jacket accessory (see page
10).
Stoichiometer
Process upsets can sometimes cause a combustion
process to go into substoichiometric or reducing condi-
tions. The oxygen readings from one or more probes may
decline all the way to zero. The stoichiometer cell will
measure the amount of oxygen deficiency during these
reducing conditions. The trends in your DCS can be set
up for a lower range limit of -1 or -2% oxygen to depict the
level of oxygen deficiency.
The operator can see if his control actions to recover are
having the desired effect. These types of events do not
occur frequently, but knowing the parameters of the
situation prevents overcorrecting while coming out of the
reducing condition. Acid-Resistant Stoichiometer Cell
Typical DCS Trend During a Reducing Process
Event
DCS Trend With X-STREAM Stoichiometer Feature
Programmable Reference
The zirconium oxide sensing technology has historically
measured process oxygen by using ambient or instrument
air as a reference (20.95% oxygen). The sensor develops
most of its signal at the low oxygen levels typically found
in combustion flue gases (2-4% oxygen) and is most
accurate at these levels. When measuring at levels
near ambient, however, the sensor develops only a few
millivolts of signal and accuracy degrades.
The programmable reference feature permits the user
to use a bottled reference gas of low oxygen value (.4%
oxygen recommended). When measuring at or near 21%
oxygen, a strong negative oxygen signal results with much
improved accuracy. A bottle of reference gas typically lasts
about a month at the low flows required.
Typical applications include:
Flue Gas Recirculation – controlling the mixing of flue
gases into the burner windbox prior to the burner to reduce
NOx emissions.
Moisture Monitoring – measuring the amount of moisture
coming off of industrial dryers by noting the dilution effect
water vapor has on the normal 20.95% ambient drying air.
Enriched Oxygen Combustion – Pure oxygen is
sometimes mixed in with the combustion air to increase
heat at the flame. This is used in steel and other
metals reduction processes and also in some catalyst
regenerators.
Page 4
Advanced Software features (available only with the Xi electronics)
5. Page 5
SPECIFICATIONS 1
Measurement Specifications
Net O2
Range: variable 0-10% to 0-40%
(Xi electronics offer 0-50% O2
range)
Accuracy in
Oxidizing conditions: ±0.75% of reading or 0.05%
O2
, whichever is greater
Lowest
detectable limit— .02% O2
Process
Temperature Effect— less than .05% O2
from 100-700°C
System Speed of
Response to
Calibration Gas: Initial response in less than 3 seconds,
T90 in less than 8 seconds. Response to
process gas changes will vary, depending
on process gas velocity and particulate
loading of the diffuser
Calibration Validity: Presentation of calibration gases matches
the normal process to within ±.02% O2
Accuracy in
reducing conditions: ±.10% of reading, or .1% O2
, whichever
is greater
System Response in
Reducing Conditions: going from oxidizing to reducing
-T90 in 120 sec.
going from reducing to oxidizing
-T90 in 30 sec.
Environmental Specifications
Transmitter Probe: Process-wetted materials are 316L or 304
stainless steel
Process
Temperature Limits: 0 to 705°C (32-1300°F) with Oxymitter
electronics
0 to 800°C (32-11472°F) with
Xi electronics
*reduced cell life can be expected if
operated continously at tempatures above
705°C (1300°F) optional bypass and
jacket accessories permit operation to
1050°C (1922°F)
Oxymitter Transmitter
Electronics Housing
(integral to probe, or
remote mounted): Low copper aluminum IP 66 (NEMA 4X),
with reference air exhuast port piped to
clean area
General Purpose
Certifications:
Oxymitter
electronics
ambient temp.
Limits: -40° to 80°C (-40° to 176°F)
Temperature limit
as measured inside
Oxymitter electronics: -40° to 85°C (-40° to 185°F)
Temperature limit of
see-thru
IR pushbuttons: -40° to 70°C (-40° to 158°F)
Optional
Xi Electronics: NEMA 4X, Polycarbonite Material
General Purpose
Certifications:
Xi Ambient Temp.
Limits: -20° to 55°C (-4° to 131°F)
Xi Temp. Limits as
measured inside
the housing: -20° to 55°C (-4° to 113°F)
Xi LCD display
Temp. Limits: -20° to 55°C (-4° to 131°F)
Installation Specifications
Probe Mounting
Flange: vertical or horizontal — 2” 150# (4.75”
(121mm) bolt circle)
DIN (145mm (5.71”) bolt circle)
Note: flanges are flat-faced, and for
mounting only. Flanges are not
pressure-rated.
Spool piece P/N 3D39761G02 is available,
to offset electronics housing from hot
ductwork.
Many adaptor flanges are available to
mate to existing flanges.
Probe Lengths and Approximate Shipping weights:
18 in. (457 mm) package: 16 pounds (7.3 kg)
3 foot (0.91 m) package: 21 pounds (9.5 kg)
6 foot (1.83 m) package: 27 pounds (12.2 kg)
9 foot (2.74 m) package: 33 pounds (15.0 kg)
12 foot (3.66 m) package: 39 pounds (17.7 kg)
15 foot (4.6 m) package: 45 pounds (20.5 kg)
18 foot (5.5 m) package: 51 pounds (23 kg)
Reference Air
(optional): 2 scfh (1l/m), clean, dry, instrument
quality air (20.95% O2
), regulated to
2.5 psi (34kPa)
Calibration: Semi-automatic or automatic
Cal Gases: .4% O2
and 8%, balance N2
recommended
Cal Gas Flow: 5 scfh (2.5 l/m)
Heater Electrical
Power: 100 - 240V, ±10% 50/60 Hz 1/2”— 14”
NPT conduit ports
Traditional
Architecture Cable: 200 foot (61m) maximum length
Power Consumption
of Probe Heater: 776VA maximum during warm-up
Electrical Power of
Oxymitter or optional
Xi electronics: 120 to 240V, ±10% 50/60 Hz
Power Consumption
of Xi: 10 watts maximum
Xi Alarms Relays: 2 provided - 2 amps, 30 VDC
Xi Optional Loss of
Flame Contact: Removes heater power
6. Page 6
Electrical Noise:
Meets EN 61326, Class A
Traditional Architecture
Cable: 200ft (61m) maximum length
Power Consumption of
Probe Heater: 776VA maximum during warm-up
Transmitter Electrical
Power: 12 – 42VDC, (loop-powered from the
control room or from the Xi box)
Electrictical Power
for Xi: 100-240V ±10%, 50-60Hz
Power Consumption
of Xi: 12VA maximum or
776VA maximum with Traditional
Architecture, 120V, Probes.
450VA maximum with Traditional
Architecture, 44V Probes
Alarm Relay Outputs: Two provided - 2 Amperes, 30 VDO,
Form-C
Optional Loss of
Flame Input: internally powered input to remove
heater power, actuated via dry
contact output from prove of flame
device.
Emerson Process Management has satisfied all
obligations coming from the European legislation
to harmonize the product requirements in Europe.
1
All static performance characteristics are with
operating variables constant. Specifications subject
to change without notice.
Power Supply and Load Requirements
General Purpose
HART communications - OXT4A pg. 11
FOUNDATION
Fieldbus Communications - OXT5A pg. 13
Direct Replacement Probe
(for use with existing electronics) - OXT4ADR pg. 15
Automatic calibration systems - XSO2
Cal pg. 16
Optional Xi advanced electronics - Xi pg. 17
7. OUTLINE DIMENSIONS FOR OXYMITTER OXYGEN TRANSMITTER FOR GENERAL
PURPOSE APPLICATIONS (OXT4A, OXT5A, OXT4ADR)
Table I. Mounting Plate
Dimensions Dia. in. (mm)
ANSI DIN JIS
Mtg. Plate (x) 6.0 7.5 6.5
(153) (190) (165)
Stud Size 5/8” – 11 M16 x 2 M12 x 1.75
4 Studs Eq. 4.75 BC 5.71 BC 5.12BC
Sp. on BC (121) BC (145) BC (130) BC
Flange (Y) 6.0 7.3 6.1
(153) (185) (155)
Table II. Removal/Installation
Dim “A” Dim. “B”
Probe Insertion Removal
Length Depth Envelope
18 in. (457 mm) 16.00 28.6
Probes (407) (725)
3 ft. (0.91 m) 34.00 46.6
Probes (864) (1182)
6 ft. (1.83 m) 70.00 82.6
Probes (1778) (2097)
9 ft. (0.91 m) 106.00 118.6
Probes (2692) (3011)
12 ft. (3.66 m) 142.00 154.6
Probes (3607) (3926)
Page 7
8. OXYMITTER 4000 WITH ABRASIVE SHIELD
Note: For probes 9 ft. or longer, bracing for cell end of probe is required inside the flue gas
ductwork. (Brackets provided with abrasive shield)
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Page 8
9. OXYMITTER 4000 ADAPTOR PLATE WITH ABRASIVE SHIELD
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Page 9
10. PROBE SIZE L D X1 ±2 (51) X2 ±2 (51)
9 ft. (2.73) 118 (2997) 18 (457) < D<103 (2616) 72 (1829) –
12 ft. (3.64) 154 (3912) 18 (457) < D<139 (3531) 60 (1524) 120 (3948)
15 ft. (4.55) 190 (4826) 18 (457) < D<175 (4445) 70 (1778) 150 (3810)
18 ft. (5.45) 226 (5740) 18 (457) < D<211 (5359) 80 (2032) 160 (4064)
OPTIONAL VARIABLE INSERTION MOUNTING* (OXT4A, OXT5A, OXT4ADR)
*Note - cannot be used with abrasion shield,
not recommended for highly abrasive flue gases
order by part #6A00319G03Page 10
11. Page 11
ORDERING INFORMATION – General Purpose Oxymitter with 4-20 mA Output Signal,
and HART®
Communications. Optional Xi electronics not applicable.
Model Description
OXT4A In Situ Oxygen Transmitter – HART®
Smart (Oxymitter 4000)
Level 1 Sensing Probe Type
1 Ceramic diffusion element probe (ANSI)
3 Snubber diffusion element (ANSI)
4 Ceramic diffusion element probe (DIN)
6 Snubber diffusion element (DIN)
7 Ceramic diffusion element probe (JIS)
9 Snubber diffusion element (JIS)
Level 2 Probe Assembly
0 18” (457mm) probe
1 18” (457mm) probe with abrasive shield
2 3’ (0.91m) probe
3 3’ (0.91m) probe with abrasive shield
4 6’ (1.83m) probe
5 6’ (1.83m) probe with abrasive shield
6 9’ (2.74m) probe
7 9’ (2.74m) probe with abrasive shield
8 12’ (3.66m) probe
9 12’ (3.66m) probe with abrasive shield
A 15’ (4.57m) probe with abrasive shield
B 18’ (5.49m) probe with abrasive shield
Level 3 Mounting Hardware (stack side)
0 No mounting hardware
1 New Installation – square weld plate with studs
2 Mounting to Model 218 mounting plate (with Model 218 shield removed)
3 Mounting to existing Model 218 support shield
4 Mounting to other mounting
5 Mounting to Model 132 adapter plate
Level 4 Mounting Hardware (probe side)
0 No mounting hardware
1 Probe only (ANSI)
2 New bypass or new abrasive shield (ANSI)
4 Probe only (DIN)
5 New bypass or new abrasive shield (DIN)
7 Probe only (JIS)
8 New bypass or new abrasive shield (JIS)
Level 5 Electronic Housing and Filtered Customer Termination – NEMA 4X, IP 66
12 For HART®
electronics integrally mounted to probe with transient protected filtered termination – no cable required
14 For HART®
electronics mounted remotely with transient protected filtered termination – must select cable below
Level 6 Communications
1 Membrane keypad – HART capable, blind cover
2 Membrane keypad – HART capable, glass cover
3 Gas fluorescent LOI HART capable, glass cover, English only
12. Page 12
Level 7 Language
1 English
2 German
3 French
4 Spanish
5 Italian
Level 8 Termination Filtering
00 Specified as part of electronic housing
Level 9 Calibration Accessories
00 No hardware
01 Cal./ref. flowmeter and ref. pressure regulator
02 Autocalibration Systems – order by separate part number (for safe areas only)
Level 10 Electronics to Probe Cable
00 No cable – integral electronics
10 20’ (6m) cable – remote electronics
11 40’ (12m) cable – remote electronics
12 60’ (18m) cable – remote electronics
13 80’ (24m) cable – remote electronics
14 100’ (30m) cable – remote electronics
15 150’ (45m) cable – remote electronics
16 200’ (61m) cable – remote electronics
ORDERING INFORMATION (continued)
13. Page 13
ORDERING INFORMATION – General Purpose Oxymitter with FOUNDATION™ Fieldbus
Communications. Optional Xi electronics not applicable.
Model Description
OXT5A In Situ Oxygen Transmitter – with FOUNDATION™ fieldbus (Oxymitter 5000)
Level 1 Sensing Probe Type
1 Ceramic diffusion element (ANSI)
3 Snubber diffusion element (ANSI)
4 Ceramic diffusion element (DIN)
6 Snubber diffusion element (DIN)
7 Ceramic diffusion element (JIS)
9 Snubber diffusion element (JIS)
Level 2 Probe Assembly
0 18’’ (457mm) probe
1 18’’ (457mm) probe with abrasive shield
2 3’ (0.91m) probe
3 3’ (0.91m) probe with abrasive shield
4 6’ (1.83m) probe
5 6’ (1.83m) probe with abrasive shield
6 9’ (2.74m) probe
7 9’ (2.74m) probe with abrasive shield
8 12’ (3.66m) probe
9 12’ (3.66m) probe with abrasive shield
A 15’ (4.57m) probe with abrasive shield
B 18’ (5.49m) probe with abrasive shield
Level 3 Mounting Hardware (stack side)
0 No adapter plate
1 New Installation – square weld plate with studs
2 Mounting to Model 218 (with Model 218 shield removed)
3 Mounting to existing Model 218 support shield
4 Competitor’s mount
5 Mounting to Model 132 adapter plate
Level 4 Mounting Hardware (probe side)
0 No mounting hardware in adapter plate
1 Probe only (ANSI)
2 New bypass or new abrasive shield (ANSI)
4 Probe only (DIN)
5 New bypass or new abrasive shield (DIN)
7 Probe only (JIS)
8 New probe or abrasive shield (JIS)
Level 5 Electronic Housing – NEMA 4X, IP 66
12 Transient protected filtered termination, integrally mounted to probe
14 Transient protected filtered termination, mounted remotely – requires cable
Level 6 Communications/Operator Interface
1 Membrane keypad – fieldbus, blind cover
2 Membrane keypad – fieldbus, glass cover
3 Gas fluorescent LOI, fieldbus, glass cover
Level 7 Language
1 English
2 German
3 French
4 Spanish
5 Italian
14. Page 14
Level 8 Termination Filtering
00 No option – specified as part of electronic housing
Level 9 Calibration Accessories
00 No hardware
01 Cal. gas, flow rotometer and reference gas set
02 Autocalibration Systems – order by separate part number (for safe areas only)
Level 10 Control Suite Functionality
00 Basic control suite
01 Deduct basic control suite
Level 11 Electronics to Probe Cable
00 No cable – integral electronics
10 20 ft. (6m) cable – remote electronics
11 40 ft. (12m) cable – remote electronics
12 60 ft. (18m) cable – remote electronics
13 80 ft. (24m) cable – remote electronics
14 100 ft. (30m) cable – remote electronics
15 150 ft. (45m) cable – remote electronics
16 200 ft. (61m) cable – remote electronics
ORDERING INFORMATION (continued)
15. Page 15
ORDERING INFORMATION – Direct Replacement Oxymitter Probe replaces all older West-
inghouse and Rosemount Analytical probes, as well as most competitive probes.
Operates on most existing electronics, and also on the Xi enhanced interface electronics.
Level 1 Sensing Probe Type
1 Ceramic diffusion element probe (ANSI)
3 Snubber diffusion element (ANSI)
4 Ceramic diffusion element probe (DIN)
6 Snubber diffusion element (DIN)
7 Ceramic diffusion element probe (JIS)
9 Snubber diffusion element (JIS)
Level 2 Probe Assembly
0 18” (457mm) Probe
1 18” (457mm) Probe with abrasive shield
2 3’ (0.91m) Probe
3 3’ (0.91m) Probe with abrasive shield 4
4 6’ (1.83m) Probe
5 6’ (1.83m) Probe with abrasive shield 4
6 9’ (2.74m) Probe
7 9’ (2.74m) Probe with abrasive shield 4
8 12’ (3.66m)Probe 1
9 12’ (3.66m) Probe with abrasive shield 4
A 15’ (4.57m) Probe with abrasive shield
B 18’ (5.49m) Probe with abrasive shield
Level 3 Mounting Adapter – Stack Side 2
0 No adapter plate
1 Mounting to stack (new installation)
2 Mounting to model 218/225/240 mounting plate (with probe support tube removed)
3 Mounting into existing model 218/225/240 probe support tube or bypass
4 Mounting into competitor’s mounting 3
5 Model 132 / World Class 3000 adapter plate
Level 4 Mounting Adapter – Probe Side
0 No mounting hardware
1 Mounting probe only (ANSI)
2 Mounting probe with abrasive shield (ANSI)
4 Mounting probe only (DIN)
5 Mounting probe with abrasive shield (DIN)
7 Mounting probe only (JIS)
8 Mounting probe with abrasive shield (JIS)
Level 5 Termination Unit
11 Standard filtered termination
12 Transient protected filtered termination
Level 6 Arrangement-Existing Electronics
03 No hardware. For use with 218 analog electronics, world-class IFT electronics or Oxymitter electronics, Xi electronics
04 Westinghouse/Rosemount digital (218A) or universal electronics
05 VeriTrim electronics
07 Model 132 digital electronics
08 For use with Yokogawa electronics (cold junction comp. in probe junction box)
09 For use with other competitive oxygen analyzer systems
Note:
Order manual calibration accessories separately
263C152G01 Reference air regulator set
771B635H01 (2 required) flowmeters for calibration and reference air
Model Description
OXT4ADR In Situ Oxygen Transmitter – for use with existing electronics or Xi electronics
16. Page 16
Option Notes for Oxt4A, Oxt5A and Oxt4ADR
Notes: In-Situ Oxygen Transmitter – HART®
Smart
High Sulfur Service:
High sulfur cell can be selected for any probe; add a line item note to your purchase order requesting the
high sulfur ZrO2 cell in place of the standard ZrO2 cell. Add 4232 UOM to the system matrix UOM total.
Example:
Note: Delete – standard cell P/N 4847B63G01
Add – high sulfur cell P/N 4847B63G02
Cell replacement kits for high sulfur service are also available. Consult P/N 4849B94XX in the
Combustion Solutions Center Spare Parts list.
Level 2: Option: 0
25/55 kgs/lbs shipping weight
Level 2: Option: 2
27/60 kgs/lbs shipping weight
Level 2: Option: 4
30/66 kgs/lbs shipping weight
Level 2: Option: 6
33/72 kgs/lbs shipping weight
Level 2: Option: 8
35/78 kgs/lbs shipping weight
Level 2: Option: 3
45/100 kgs/lbs shipping weight
Level 2: Option: 5
50/110 kgs/lbs shipping weight
Level 2: Option: 1, 7
54/120 kgs/lbs shipping weight
Level 2: Option: 9
60/130 kgs/lbs shipping weight
Level 2: Option: A
66/145 kgs/lbs shipping weight
Level 2: Option: B
72/158 kgs/lbs shipping weight
Level 2: Option: 1, 3, 5, 7, 9, A, B
Recommended usages: high velocity particulates in flue stream, installation within 10’ (3.5 m) of soot
blowers or heavy salt cake build up. Applications: pulverized coal, recovery boilers, lime kiln.
Regardless of application, abrasive shields with support brackets are recommended for 9’ (2.74 m)
and 12’ (3.66 m) , 16’ (4.57 m) and 18’ (5.49 M) probe installations, particularly horizontal installations.
Level 3: Option: 4
Where possible, specify SPS number, otherwise provide details of the existing mounting plate as follows:
Plate with studs: Bolt circle diameter, number and arrangements of studs, stud thread, stud
height above mounting plate.
Plate without studs: Bolt circle diameter, number and arrangement of holes, thread, depth of
stud mounting plate with accessories.
Level 6: Option: 1
Startup, calibration and operation can be implemented using the standard membrane keypad.
Remote access and additional functionality available via HART®
/FOUNDATION Field Communications
(Model 375 Hand-held Communicator or AMS) with Oxymitter device descriptor (DD) required.
ORDERING INFORMATION – AUTOCALIBRATION ACCESSORIES
Model Description
XSO2CAL O2
Autocalibration Accessories - apply to Oxymitter or Xi electronics. General purpose only.
Level 1 Single Probe Sequencers Autocalibration options
00 None
01 SPS 4001 Single Probe Sequencer, general purpose NEMA 4X, includes check valve for probe
Level 2 Intelligent Multiprobe Sequencers (IMPS)
00 None
01 IMPS Intelligent Probe Sequencer, single-probe, general purpose NEMX 4X, includes valve for probe
02 IMPS Intelligent Probe Sequencer, two-probe, general purpose NEMX 4X, includes valve for probe
03 IMPS Intelligent Probe Sequencer, three-probe, general purpose NEMX 4X, includes valve for probe
04 IMPS Intelligent Probe Sequencer, four-probe, general purpose NEMX 4X, includes valve for probe
05 IMPS Intelligent Probe Sequencer, single-probe, 115V heated general purpose NEMX 4X, includes valve for probe
06 IMPS Intelligent Probe Sequencer, two-probe, 115V heated general purpose NEMX 4X, includes valve for probe
07 IMPS Intelligent Probe Sequencer, three-probe, 115V heated general purpose NEMX 4X, includes valve for probe
08 IMPS Intelligent Probe Sequencer, four-probe, 115V heated general purpose NEMX 4X, includes valve for probe
09 IMPS Intelligent Probe Sequencer, single-probe, 220V heated general purpose NEMX 4X, includes valve for probe
010 IMPS Intelligent Probe Sequencer, two-probe, 220V heated general purpose NEMX 4X, includes valve for probe
011 IMPS Intelligent Probe Sequencer, three-probe, 220V heated general purpose NEMX 4X, includes valve for probe
012 IMPS Intelligent Probe Sequencer, four-probe, 220V heated general purpose NEMX 4X, includes valve for probe
17. Page 17
ORDERING INFORMATION – OPTIONAL Xi ADVANCED ELECTRONICS
Model Description
XI O2
Advanced electronics
Level 1 Xi Type
01 Future
02 Future
03 Future
04 Traditional Architecture Xi - all signal conditioning and operator interface via the Xi. Cable required, single channel only.
05 Traditional Architecture Xi - all signal conditioning and operator interface via the Xi. Cable required, single channel only,
set up to run 44V world class probe
Level 2 Calibration & Reference Gas Accessories
00 No Hardware
01 Calibration & Reference Gas Flowmeters & Reference Regulator/Filter
Level 3 Cable (For Traditional Architecture Xi Only)
00 None
10 20’ (6m) Cable
11 40’ (12m) Cable
12 60’ (18m) Cable
13 80’ (24m) Cable
14 100’ (30m) Cable
15 150’ (45m) Cable
16 200’ (60m) Cable
Level 4 Stoichiometer Function
00 No
01 Single Channel
02 Dual Channel, (second channel not available for traditional architecture Xi)
Level 5 Programmable Reference Function
00 No
01 Single Channel
02 Dual Channel, (second channel not available for traditional architecture Xi)
Level 6 825 Deg C Process Function
00 No
01 Single Channel
02 Dual Channel, (second channel not available for traditional architecture Xi)
NOTES: Order Direct Replacement Oxymitter probe separately - Oxt4ADR
18. Xi Enhanced Interface - Panel Mounting Details
Xi Enhanced Interface - Wall/Surface and Pipe Mounting Details
Page 18
19. Page 19
OXYMITTER ACCESSORIES
HART®
Hand-held 375 Communicator
The FOUNDATION™ fieldbus 375 Communicator is an in-
terface device that provides a common communication link
to HART®
/FOUNDATION fieldbus compatible instruments,
such as the Sulfur-Resistant Oxymitter. HART®
Communi-
cations Protocol permits all the information available from
the Sulfur-Resistant Oxymitter electronics to be transmit-
ted over standard 4-20 mA signal wires or FOUNDATION
fieldbus wires. By attaching the hand-held communicator
at a termination point along the signal line, a technician
can diagnose problems and configure and calibrate the
Sulfur-Resistant Oxymitter as if he or she were standing in
front of the instrument.
For more information, call Rosemount Analytical at
1-800-433-6076.
Bypass Packages
The specially designed Rosemount Analytical Bypass
Package for oxygen analyzers has proven to withstand
the high temperatures in process heaters while providing
the same advantages offered by the in situ sensor. Inconel
tubes provide effective resistance to corrosion, and the
other components common to other sampling systems.
For more information, call Rosemount Analytical at
1-800-433-6076.
O2
Calibration Gas Kits - pn. 6296A27G01
Rosemount Analytical’s O2
Calibration Gas and
Service Kits have been carefully designed to provide
a more convenient and fully portable means of testing,
calibrating, and servicing Rosemount Analytical’s oxygen
analyzers. These lightweight, disposable gas cylinders
eliminate the need to rent gas bottles.
For more information, call Rosemount Analytical at
1-800-433-6076.
Wireless THUMTM
Adaptor
The Smart Wireless THUM Adaptor converts the standard
4-20mA signal from the Xi electronics to a wireless signal.
All HART information is transmitted in addition to the
process O2
value.
For more information, call Rosemount Analytical at
1-800-433-6076.