The Yokogawa 4-Wire SENCOM™ SMART Sensor Platform

Multi-Channel/Parameter Analyzer FLXA402

The SENCOM SMART Sensor Platform has been designed with a strong focus on Yokogawa's digital SMART sensors and provides greater insight and enhanced capabilities for more reliable data across the entire product lifetime.

Yokogawa's latest SMART sensor system enhances the operation, reliability, and credibility of online process analyzers, from the engineering and purchasing to modification and optimization, by using the latest sensing technologies and asset management tools.

The SENCOM SMART Sensor Platform has been designed with a strong focus on Yokogawa's digital SMART sensors and provides greater insight and enhanced capabilities for more reliable data across the entire product lifetime.

Digital SMART SENCOM™ Adapter, SA11

Yokogawa's latest SMART sensor system enhances the operation, reliability, and credibility of online process analyzers, from the engineering and purchasing to modification and optimization, by using the latest sensing technologies and asset management tools.

Simple Setup and Configuration

Analog sensors

The SENCOM 4.0 Platform is designed with an intuitive menu structure, easy-to-understand configuration, alarm settings, and clear error-fixing information to help you make credible and reliable measurements of online process control.

Environmentally Friendly Design

Conventional SMART sensors include integrated electronics on top of an analog sensor, therefore the still operating electronics must be thrown away once the sensor has reachable the end of its lifetime, adding to global waste.

The SENCOM 4.0 platform includes a reusable SMART adapter, so only an analog sensor has to be removed when it reaches the end of its lifetime, thereby reducing waste and costs.

Easy and Efficient Maintenance

Optional Digital SMART SENCOM™
Expansion Junction Box, BA11

The Maintenance Manager is a data management system that allows technicians to forecast maintenance and calibration frequency, estimate the service life of the sensor, and estimate the life expectancy of the sensor.

Calibration data are stored within the memory chip of the SMART sensor using the SENCOM 4.0platform. Once the sensor is connected to the analyzer, it is possible to download or upload the latest calibration data to the FLXA402 analyzer, thus avoiding the need for field calibration.

For more information, visit this page on the Miller Energy website.

Miller Energy, Inc.
800-631-5454

Yokogawa Gas Density Analyzer and Detector Pairing

Yokogawa's Gas Density Meter is a combination of density converter and detector. The instrument provides continuous measurement of process gas density, specific gravity and molecular weight in a configuration delivering stable operation and requiring little maintenance.

One important aspect is the proper pairing of a detector with the density converter. The video explains the process and how to make sure it is done correctly.

Share your process analytical and measurement challenges with process instrumentation experts, leveraging your own knowledge and experience with their product application expertise to develop effective solutions.

E-Book on Fired Heaters and Combustion Efficiency

Modern high power boiler room

Yokogawa, globally recognized leader in a number of process control fields, has authored an e-book which provides useful insight into how operators of combustion based equipment and systems can improve efficiency and enhance safety by employing modern technology.

[All quoted passages in this article are from the Yokogawa e-book]

The Yokogawa e-book Combustion & Fired Heater Optimization offers “an analytical approach to improving safe & efficient operations” related to the use of combustion & fired heaters in the process industries. Through presenting an overview of combustion sources, such as furnaces and fired heaters, the book states that while “fired heaters pose a series of problems from safety risks to poor energy efficiency,” those problems “represent an opportunity for improved safety, control, energy efficiency and environmental compliance.” Fired heaters “account for 37% of the U.S. manufacturing energy end use.” Tunable Diode Laser Spectrometer (TDLS) technology helps mitigate safety concerns by “measuring average gas concentrations across the high temperature radiant sections.”

The book states that the four main concerns applicable to fired heaters are asset sustainability, inefficient operations, the operator skillset, and safety and compliance. Outdated diagnostics and controls have placed unnecessary stress on operator response, making sustainability of fired heaters difficult. The emissions of fired heaters are generally higher than designed, and can be coupled with control schemes for firing rates little changed over the past 40 years. Operators, generally, lack a clear understanding of design, and even engineering principles of heat transfer are not typically included in education related to fired heaters. Confounding the situation further, “many natural draft heaters do not meet this [safety regulation] guideline with existing instrumentation and control systems.” These complications combine to form a noticeable problem Yokogawa’s technology hopes to address. The company notes how the fired heater relies on natural draft instead of forced air, meaning the heaters “typically lack the degree of automation applied to other process units in the plant.” Offering a full detail of both the control state of most fired heaters and their systems defines the process situation currently considered common in the field, while emphasizing high excess air as providing a “false sense of safety.”

The proposed TDLS system allows for the measurement of “both the upper and lower conditions in a fired heater” by “simultaneously controlling the fuel and air supply based on fast sample intervals.” Safer burner monitoring and heater efficiency results from the TDLS measurements of CO, CH₄, and O₂. The optimization of air flow control reduces “O2 concentration … from 6% to 2%” and increases the furnace’s thermal efficiency. Combustion control is achieved by managing fuel flow and the arch draft. The TDLS integrated system works in tandem with already established logic solver systems in the plant. The TDLS technology works as a non-contacting measurement with “full diagnostic capability” and offers “distinct advantages over single point in situ analyzers” via reduction of false readings. Specific gas measurements, fast response time, optical measurement technology, and “high and variable light obstruction” are featured components of the TDLS system highlighted to show the technology’s durability and flexibility. The longevity and reliability of the system is showcased by how the TDLS combustion management system has been operational in a major refinery since 2010. The percentage of excess O₂ in sample fired heaters has decreased by 1% to 1.5%. Measurements by the TDLS system have been verified by other gas analyzers. The furnace conditions in the plant are more efficiently monitored and controlled. As a result, the furnace in the functional environment is “now near its optimum operating point, using minimum excess air.”

Yokogawa presents a process-related problem, then details the key points of the problem while unpacking the causes. The e-book introduces Yokogawa’s technology, explains the mechanics, and demonstrates how TDLS acts as a solution to the problem, supported by a tangible example. The book offers great insight for both the operational principles of fired heaters and a new technology designed to maximize efficiency in the control process.

The e-book is included below. More detail is available from product applicationspecialists, with whom you should share your combustion and fired heater related challenges. Combining your own facilities and process knowledge and experience with their product application expertise will lead to effective solutions.

Fired Heater and Combustion Optimization From Yokogawa from Miller Energy, Inc.

Handbook on pH and ORP Measurement

Dual input pH analyzer and transmitter
Courtesy Yokogawa

Measurement of pH/ORP is a common operation throughout a number of industries. Obtaining true measurements and making correct interpretation of the results can prove challenging without solid working knowledge of the methodology and procedure involved. Certain effects have the ability to cause problems if not taken into consideration.

The book provided below, authored and provided by Yokogawa Electric Corporation, provides a comprehensive understanding of pH/ORP measurement and how to achieve reliable results. Basic information on the principles of measuring pH/ORP, construction of the sensing elements, and their basic use in process applications is provided.

A part of achieving accurate and reliable pH/ORP measurements includes the provision of sufficient electrode strorage conditions and proper maintenance. Prevention of common errors during maintenance and storage, as well as consistent detection of loop failures is important. This book describes how to avoid pitfalls and detect failures.

The book is accompanied with a frequently asked question and answer section as well as an appendix that includes helpful information like a Chemical Compatibility Table and a Liquid-Application-Data-Sheet, which can be used to describe the user’s application.

pH and ORP Measurement Handbook from Miller Energy, Inc.