An informative and educational resource specializing in process control instrumentation, analytical instruments, and related industrial equipment. Content includes technology basics, how-to's, new product developments, and application notes. Blog is courtesy of Alliance Technical Sales, a leading Manufacturers' Rep headquartered in Clarendon Hills, IL and serving customers in Illinois, Indiana, Iowa, Michigan and Wisconsin.
Array of industrial heating products Courtesy Briskheat
Alliance Technical Sales recently reached a new representation agreement with BriskHeat Corporation. The industrial heating products and systems manufactured by BriskHeat expand and complement the Alliance product and capabilities offering.
BriskHeat manufactures a broad line of heaters, insulators, and controls for almost every industrial application.
Cloth Heating Jackets and Insulators
Heating Tapes
Heating Cable
Laboratory Heaters and Equipment
Etched Foil Heaters
Silicone Rubber Heaters
Drum Heaters
Tote Tank / IBC Heaters
Gas Cylinder Warmers
Enclosure Heaters
Hopper Heating Systems
Personal Comfort Heating Solutions
Hazardous-Area Heaters
Plastic Bending Heaters
Resistance Wire
Temperature Controllers
Temperature Controllers for Outdoor Use
Insulators
Heaters and Controls with Canadian Approvals
Composite Curing Solutions
Share your industrial and process heating requirements with the product specialists at Alliance Technical Sales. Combining your process expertise with their product knowledge will produce effective solutions.
Bioreactors and other batch operations can require the integration and coordinated operation of multiple control loops, data collection and processing, and the equipment and instruments sourced from differing manufacturers. Operations such as these can benefit greatly from productivity improvement afforded by expert level software that automates and coordinates the tasks involved in batch processing.
ILS Automation, a leader and specialist in software and hardware targeted at the automation of batch processing, provides their Batch Expert+ software which allows operators to maximize productivity throughout the entire process. The company takes an open non-proprietary approach to providing solutions for complex batch processing. In the company's own words (from the ILS website) Batch Expert+ software offers:
Adaptable: Customers can customize a system to meet their needs both now and in the future. Software features are often added to meet the ever-changing needs of process development or the introduction and integration of new measurement technology.
IoT Approach: We apply the notion of the Internet of Things (IoT) to laboratory automation. Our controllers integrate smart control elements and instruments in smart ways. Often this implies a digital interface to read and write actual numbers instead of an analog 4-20 mA approximation. Richer and more accurate/precise data is presented for data analysis and automation. Be it gas flow controllers (Alicat and Brooks), digital probes (Mettler ISM, Hamilton Visiferm), scales (Mettler, Sartorius, OHAUS, etc.), cell density (Hamilton Incyte, ABER, Fogale), the IoT approach provides smarter solutions.
Open: ILS first-and-foremost provides solutions — not just a piece of equipment that is unpacked from a box. To achieve this goal, we don’t hide behind proprietary equipment or software that is rigid and would conform to our thoughts of what our customers need. Our platforms grow and scale to adapt to customer needs through an open software and hardware system based on industrial grade, off-the-shelf components.
Remote Support: ILS often supports our customers through a remote VPN connection (LogMeIn, Citrix Receiver, etc.). Our customers claim that we have an obsession with bioreactor control and performance tuning. Combining our AFC controller with our BE+ platform, the slightest DO oscillation or anomaly spurs our interest. Through this interaction and customer feedback, we continually learn and improve our products and solutions. Also, we are often not on-site when questions and issues arise just before a 5:00 pm Friday inoculation, so any automation to help the end users is greatly appreciated.
There is more to learn about Batch Expert+ and how it can be incorporated into your own operations. Share your processing challenges with a product specialist, combining your process knowledge with their product application expertise to develop an effective solution.
The measurement of chlorine is a mainstay of many disinfection and drinking water treatment processes. Higher levels of accuracy in measurement of chlorine increase the surety of the disinfection process while limiting use of disinfection chemical products to only what is necessary.
Kuntze Instruments has developed and recently released a total chlorine sensor for use in disinfection processing and drinking water production. The Zirkon® DIS Total measures the level of chlorine compounds. Its open and potentiostatic design offers four primary operator benefits.
Immunity to air bubbles
Absence of delicate plastic membranes
No exchange of electrolyte
No membrane exchange
A data sheet is included below that provides more technical data for the Zirkon® DIS Total sensor. The sensor is designed and configured in a manner that allows its usage with the full range of applicable instrumentation from the company.
In control theory, an on/off controller is a feedback controller that switches abruptly between two states. It is often used as a control method for a process which can tolerate ongoing change in the process value within a band, referred to as the hysteresis. A common example of an on/off temperature control operation is a residential thermostat. They control the temperature of your home, turning off the heating or cooling system at your comfort setting, waiting for some significant change to occur, then turning on again to eliminate that difference. The process cycles continually. Many process operations can utilize simple on/off control action to maintain suitable conditions.
Temperature Transmitter Courtesy Smart Sensors
A PLC (programmable logic controller) can be a good candidate for creating your own on/off temperature controller with specialized additional functionality that suits your process. Implementing the temperature control operation is not difficult, and the use of a PLC allows the designer to integrate other useful functions into a single piece of hardware, functions that might not be available in a commercially available process controller. The primary input device will be a transmitter with analog output compatible with the analog input on the PLC. For this discussion, let's assume this is a temperature control application that requires heating of the process. So, a temperature transmitter will be our primary input device. The primary output device will be a heater contactor or other power control device, the input of which must be compatible with the output of the PLC. Any other switches, pilot lights, alarms, or other devices will need to also be associated with a compatible PLC I/O point. The logic portion of the temperature control activity is not complex. The input signal from the temperature transmitter is converted to a working value. Depending upon the numeric muscle of your PLC, this value may be a floating point number, but integer values work suitably. Here are the logic steps needed.
Read temperature input value
Is temperature greater than or equal to the setpoint? If yes, turn off output for heater and proceed to the next step. If no, go to next step.
Is temperature less than or equal to the value of setpoint minus a deadband value (more on deadband below)? If yes, turn on output for heater. If no, continue to other commands that provide your additional desired functions.
Here are some points to consider.
Use a greater than or equal to, or less than or equal to comparison to assure that all possible numeric scenarios for process temperature are handled.
Deadband is a value that you employ to keep your control output from chattering rapidly between the on and off state when the process value is very close to the setpoint. It can also be used, in this case, to slow down the on/off switching of the heater and reduce wear on a mechanical contactor. Keep in mind that a 16 or 32 bit number, which is what the PLC will use for internal processing of your temperature reading, may actually pass across the setpoint value rapidly, even though a digital display of temperature will appear to be relatively stable. The constantly changing values would cause rapid changes in the output if the comparison logic did not include a deadband value. The use of a deadband creates a range of process temperature where no change in the output occurs.
For this particular application, with its heating action, a separate limit control is advised. The device should derive its input signal from a source other than that of the PLC and the output of the limit control should provide a positive means of de-energizing the heater.
Other functions easily programmed into the PLC include alarms, pilot lights to reflect heating activity, an on/off switch for the process, and other items limited only by your ingenuity.
Not every process needs PID control. This illustration focused on temperature, but the principles are the same for almost any process. A modestly powerful PLC can provide the processing power, and input devices for temperature, humidity, moisture, pH, liquid level, flow, pressure, and more are available. Share your challenges with a process measurement specialist and develop an effective customized solution for control of your process.
Process analytical sensors can require scrupulous levels of attention and maintenance to continually deliver optimum performance. In some cases, overly frequent or involved maintenance is performed in order to avoid problems. Mettler Toledo, globally recognized leader in the development of process analytical sensors, developed a solution to streamline sensor maintenance and maximize reliability and performance.
The iSense software suite supports Mettler Toledo's line of intelligent sensors, monitoring and documenting sensor performance while maintaining real time indications of time to maintenance and calibration. Essentially, the iSense software provides guided sensor maintenance and continually verifies the operational health of the sensor to assure that delivered data is accurate and reliable.
There is much more to learn about how the iSense software and comprehensive offering of intelligent sensors can enhance process performance, as well as the efficiency of analytical operations. Reach out to a process analytics specialist with your analytical measurement challenges. Combining your process knowledge and experience with their product application expertise will yield an effective solution.
In the field of industrial processing, there is always a striving for improvement. Increasing output, improving output, and decreasing resource input are the watch phrases for process designers and operators in every industry.
Liquid processing often involves analytical instruments that produce periodic or continuous measurements of process conditions. The accuracy of these instruments will directly impact the quality and efficiency of the process, so great attention is paid to maintaining sensors and related instrumentation in top working order. Mettler Toledo, globally recognized leader in analytical sensor technology, provides a comprehensive solution for liquid analytical operations with its line of smart sensors and companion management software.
The ISM sensor technology couples the sensor with an onboard processor that continuously monitors sensor performance and delivers real time information about accuracy and time before maintenance. This empowers users to efficiently schedule maintenance tasks and operate with assurance that the data delivered by the sensor is reliable.
The video below sums up the ISM sensor benefits in under one minute. Share your process analytical challenges with application specialists and combine your process knowledge with their product application expertise to develop effective solutions.
Digital sensor technology opens new
avenues for accuracy and efficiency Courtesy Mettler Toledo
In-line process analytics deliver wide ranging data used to control production processes and assure the suitability and performance of end products. Strict adherence to established procedures and standards contribute to the accuracy and value of the measurements derived from instruments and equipment monitoring various process steps from start to completion.
Digital sensor technology, with an onboard microprocessor, provides a wealth of functionality not previously available that enhances accuracy and efficiency. Mettler Toledo is at the forefront of digital sensor technology for inline process analytics with their line of ISM (Intelligent Sensor Management) compatible sensors. The digital sensors interface with companion transmitters and software tools to deliver customers top flight process analytics performance.
Simplified workflow.
Increased measurement effectiveness and process confidence.
Sensors are easily removed from the process for calibration, negating need for personnel to bring calibration gases or buffer solutions to the measurement point.
Diagnostic functions provide easy to read tools, notifying operators of when and what to do to maintain proper performance.
Each sensor stores its own set of calibration data, which is automatically uploaded to the companion transmitter.
Self configuration executed when new sensor connected to transmitter.
Supporting software facilitates the range of tasks necessary to maintain top flight operational status for every ISM sensor.
Sensor output is a digital signal, not prone to degradation in the same manner as analog signals.
Sensor learns from and adapts to process conditions to provide better overall performance.
There is much more to learn regarding how ISM sensors can dovetail into your process operation and deliver substantial increases in efficiency and accuracy. The document below provides the next layer of information. Reach out to an inline process measurement specialist, sharing your process measurement challenges. The combination of your process knowledge and their product application expertise will yield an effective solution.