Water Quality Analysis – Constituent Survey Part 3

Industrial steam turbines can be negatively impacted
by silica

What we know as “water” can consist of many non-H2O components in addition to pure water. This three part series has touched on some of the constituents of water that are of interest to various industrial processors. The first installment reviewed dissolved oxygen and chloride. The second article covered sulfates, sodium, and ammonia.

To conclude the three part series on water quality analysis in process control related industrial applications we examine silica, another element which in sufficient quantities can become a confounding variable in water for industrial use. In natural settings, silica, or silicon dioxide, is a plentiful compound. Its presence in water provides a basis for some corrosion-inhibiting products, as well as conditioners and detergents. Problems arise, however, when high concentrates of silica complicate industrial processes which are not designed to accommodate elevated levels. Specifically, silica is capable of disrupting processes related to boilers and turbines. In environments involving high temperature, elevated pressure, or both, silica can form crystalline deposits on machinery surfaces. This inhibits the operation of turbines and also interferes with heat transfer. These deposits can result in many complications, ranging through process disruption, decreased efficiency, and resources being expended for repairs.

The silica content in water used in potentially affected processes needs to be sufficiently low in order to maintain rated function and performance. Silica analyzers provide continuous measurement and monitoring of silica levels. The analyzers detect and allow mitigation of silica in the initial stages of raw material acquisition or introduction to prevent undue disruption of the process. Additionally, a technique called power steam quality monitoring allows for the aforementioned turbine-specific inhibition – related to silica conglomerates reducing efficacy and physical movement – to be curtailed without much issue. The feedwater filtration couples with a low maintenance requirement, resulting in reduced downtime of analytic sequences and a bit of increased peace of mind for the technical operator.

While silica and the other compounds mentioned in this series are naturally occurring, the support systems in place to expertly control the quality of water is the most basic requirement for harvesting one of the earth’s most precious resources for use. As a matter of fact, the identification and control of compounds in water – both entering the industrial process and exiting the industrial process – demonstrates key tenets of process control fundamentals: precision, accuracy, durability, and technological excellence paired with ingenuity to create the best outcome not just one time, but each time.

The measurement of the various contaminating constituents of process water requires special equipment and techniques. Share your water quality measurement requirements and challenges with fluid process specialists, combining your own knowledge and experience with their product application expertise to develop effective solutions.

Water Quality Analysis – Constituent Survey (Part 2)

Sewage treatment is but one area where water quality
measurement is employed

It would be difficult to understate the role and importance of water in industrial processing, even our own biological existence. In the first installment of this series, the roles of dissolved oxygen and chlorides were covered.

Continuing the examination of water quality monitoring in municipal and industrial processes, another key variable which requires monitoring for industrial water use is sulfate. Sulfate is a combination of sulfur and oxygen, salts of sulfuric acid. Similarly to chlorides, they can impact water utilization processes due to their capability for corrosion. The power generation industry is particularly attuned to the role of sulfates in their steam cycle, as should be any boiler operator. Minerals can concentrate in steam drums and accelerate corrosion. Thanks to advancements in monitoring technology, instruments are available which monitor for both chlorides (covered in the previous installment in this series) and sulfates with minimal supervision needed by the operator, ensuring accurate detection of constituent levels outside of an acceptable range. Ionic separation technologies precisely appraise the amount of sulfate ions in the stream, allowing for continuous evaluation and for corrective action to be taken early-on, avoiding expensive repairs and downtime.

Another substance worthy of measurement and monitoring in process water is sodium. Pure water production equipment, specifically cation exchange units, can be performance monitored with an online sodium analyzer. Output from the cation bed containing sodium, an indication of deteriorating performance, can be diverted and the bed regenerated. Steam production and power generation operations also benefit from sodium monitoring in an effort to combat corrosion in turbines, steam tubes, and other components. Sodium analyzers are very sensitive, able to detect trace levels.

Ammonia is comprised of nitrogen and hydrogen and, while colorless, carries a distinct odor. Industries such as agriculture utilize ammonia for fertilizing purposes, and many other specializations, including food processing, chemical synthesis, and metal finishing, utilize ammonia for their procedural and product-oriented needs. An essential understanding of ammonia, however, includes the fact that the chemical is deadly to many forms of aquatic life. Removing ammonia from industrial wastewater is a processing burden of many industries due to the environmental toxicity.

Methods for removing ammonia from wastewater include a biological treatment method called ‘conventional activated sludge’, aeration, sequencing batch reactor, and ion exchange. Several methods exist for in-line or sample based measurement of ammonia concentration in water. Each has particular procedures, dependencies, and limitations which must be considered for each application in order to put the most useful measurement method into operation.

As water is an essential part of almost every facet of human endeavor and the environment in which we all dwell, the study and application of related analytics is an important component of many water based processes. The variety of compounds which can be considered contaminants or harmful elements when dissolved or contained in water presents multiple challenges for engineers and process operators.

Alliance Technical Sales specializes in the instruments, equipment, and supplies utilized to analyze water and other liquids employed throughout commercial and industrial operations.

Water Quality Analysis – Constituent Survey (Part 1)

Many industrial and commercial processes rely on
specific water quality requirements

Of all the raw materials available for human consumption – aside from the air we breathe – the most vital component of life on earth is water. In addition to the global need for humans to drink water in order to survive, the use of water is essential in a myriad of industries relating to process control. Whether the goal is the production or monitoring of pure water for industrial use, or the processing of wastewater, the ability to measure the presence and level of certain chemical constituents of water is necessary for success.

In order to use water properly, industrial professionals combine state of the art analyzers with technical expertise to evaluate water quality for use or disposal. Two essential values of process control are ensuring elements of a control system are accurate and secure, and, furthermore, that they are accurate and secure for each product every time. By properly vetting water in industry, engineers and other personnel in fields such as pharmaceuticals, chemical, food & beverage, brewing, power, and microelectronics are able to maintain standards of production excellence and conform with regulatory requirements related to water quality.

The amount of dissolved oxygen present in water can correlate with the degree of movement at an air-water interface, also being impacted by pressure, temperature, and salinity. Excessive or deficient dissolved oxygen levels in industrial process waters may have an impact on process performance or end product quality. Likely, the most common application for dissolved oxygen measurement is in the evaluation of wastewater for biological oxygen demand. The primary function of dissolved oxygen in wastewater is to enable and enhance the oxidation of organic material by aerobic bacteria, a necessary step in treatment.

To measure dissolved oxygen, specialized sensors and companion instruments are employed that require careful maintenance and trained technical operators. The level of measurement precision varies depending on the industry employing the technology, with numerous applications also being found in the food & beverage and pharmaceutical industries. In-line continuous measurement is used in wastewater processing to determine if the dissolved oxygen remains in a range that supports the bacteria necessary for biodegradation.

Chloride concentration in wastewater is strictly regulated. Industrial and commercial operation effluent can be regulated with respect to allowable chloride content. While commonly found in both streams and wastewater, chlorides, in large amounts, can present challenges to water utilization or processing facilities. Chloride levels impact corrosion, conductivity, and taste (for industries in which such a variable is paramount). In a process system, having an essential component marred due to elevated quantities of a substance could reverberate into any end-product being manufactured. Chloride analyzers, some of which can also detect and monitor other water characteristics, serve as important tools for water consuming facilities to meet regulatory standards for effluent discharge or internal quality standards for recycling.

There are other constituents of what we refer to as “water” that are subject to measurement and monitoring for a range of institutional, industrial, and municipal applications. Those will be explored in the next part of this article series.

The measurement of dissolved oxygen or chloride concentration requires special equipment and techniques. Share your water quality measurement requirements and challenges with fluid process specialists, combining your own knowledge and experience with their product application expertise to develop effective solutions.

Common Industrial and Commercial Process Heating Methods

Many industrial processes utilize heat as an energy input

Many industrial processes involve the use of heat as a means of increasing the energy content of a process or material. The means used for producing and delivering process heat can be grouped into four general categories.

• Steam
• Fuel
• Electric
• Hybrid

The technologies rely upon conduction, convection, or radiative heat transfer mechanisms, soley or in combination, to deliver heat to a substance. In practice, lower temperature processes tend to use conduction or convection. Operations employing very high temperature rely primarily on radiative heat transfer. Let's look at each of the four heating methods.

STEAM

Steam based heating systems introduce steam to the process either directly by injection, or indirectly through a heat transfer device. Large quantities of latent heat from steam can be transferred efficiently at a constant temperature, useful for many process heating applications. Steam based systems are predominantly for applications requiring a heat source at or below about 400°F and when low-cost fuel or byproducts for use in generating the steam are accessible. Cogeneration systems (the generation of electric power and useful waste heat in a single process) often use steam as the means to produce electric power and provide heat for additional uses. While steam serves as the medium by which heat energy is moved and delivered to a process or other usage, the actual energy source for the boiler that produces the steam can be one of several fuels, or even electricity.

FUEL

Fuel based process heating systems, through combustion of solid, liquid, or gaseous fuels, produce heat that can be transferred directly or indirectly to a process. Hot combustion gases are either placed in direct contact with the material (direct heating via convection) or routed through tubes or panels that deliver radiant heat and keep combustion gases separate from the material (indirect heating). Examples of fuel-based process heating equipment include furnaces, ovens, red heaters, kilns, melters, and high-temperature generators. The boilers producing steam that was described in the previous section are also an example of a fuel based process heating application.

ELECTRIC

Electric process heating systems also transform materials through direct and indirect means. Electric current can be applied directly to suitable materials, with the electrical resistance of the target material causing it to heat as current flows. Alternatively, high-frequency energy can be inductively coupled to some materials, resulting in indirect heating. Electric based process heating systems are used for heating, drying, curing, melting, and forming. Examples of electrically based process heating technologies include electric arc furnace technology, infrared radiation, induction heating, radio frequency drying, laser heating, and microwave processing.

HYBRID

Hybrid process heating systems utilize a combination of process heating technologies based on different energy sources or heating principles, with a design goal of optimizing energy performance and overall thermal efficiency. For example, a hybrid steam boiler may combine a fuel based boiler with an electric boiler to take advantage of access to low off-peak electricity cost. In an example of a hybrid drying system, electromagnetic energy (e.g., microwave or radio frequency) may be combined with convective hot air to accelerate drying processes; selectively targeting moisture with the penetrating electromagnetic energy can improve the speed, efficiency, and product quality as compared to a drying process based solely on convection, which can be rate limited by the thermal conductivity of the material. Optimizing the heat transfer mechanisms in hybrid systems offers a significant opportunity to reduce energy consumption, increase speed and throughput, and improve product quality.

Many heating applications, depending on scale, available energy source, and other factors may be served using one or more of the means described here. Determining the best heating method and implementation is a key element to a successful project. Alliance Technical Sales specializes in electric heating applications and facets of the industrial production of steam. Share your process and project challenges with them and combine your facilities and process knowledge and experience with their product application expertise to develop effective solutions.

Automatic pH Sensor Cleaning and Calibration Saves Time and Cost

Automated pH sensor cleaning and calibration
with EasyClean 400
Courtesy Mettler Toledo

Measurement of pH is a common analytical operation in liquid processing. Whether chemical or wastewater operations, pH measurement provides useful information about process condition.

The sensors used for measuring pH can require care and maintenance, in the form of cleaning and calibration, to maintain peak performance. Traditionally, these operations have been performed manually by trained technicians. The task, though, is a good candidate for automation to provide cost savings and uniformity for sensor cleaning and calibration.

Mettler Toledo manufacturers four different automated cleaning and calibration systems for their analytical sensors. The offering ranges from simple water rinsing or compressed air cleaning to prevent build up to fully automated cleaning and calibration systems requiring little in the way of human intervention.

The technical data sheet below provides details about the fully automated system. Share your analytical measurement challenges and requirements with application specialists, combining your own process knowledge and experience with their product application expertise to develop effective solutions.

Automated pH Sensor Cleaning and Calibration from Alliance Technical Sales, Inc.

Mounting Adaptions Expand Applications for Tunable Diode Laser Gas Analyzers

Tunable diode laser gas analyzer with retroflector
requires no special aiming and puts the source
and detector on the same side of the pipe.
Courtesy Mettler Toledo

Gas analysis is an important part of production, quality control, safety, efficiency, or legal compliance in many industrial operations. Reliable and accurate information about the concentration of certain gas components enables operators to properly control processes and regulate output.

A tunable diode laser gas analyzer (TDL) is essentially an application of absorption spectroscopy. The laser light source can be adjusted to the absorption wavelength of the target gas molecule. The light passes through the gas and is collected and measured by a detector. Based upon known properties of the target gas molecule, its concentration can be determined. The technology provides suitable accuracy, delivers real time measurement data, and in many cases requires little maintenance. Of course, applying technology in the field can present unique site specific challenges.

Dust, other particulates, distance related to pipe diameter, pressure, and temperature can impact the instruments ability to deliver reliable measurements. Additionally, installations using opposing emitters and detectors in a "cross pipe" configuration can have difficulty in achieving and maintaining proper alignment. Solutions are at hand for many of these previously intractable applications. Integrating the light source and detector into a single unit with lighter weight and smaller size enables a less complicated installation scenario. There are other adaptions made to the instrument that overcome many of the commonly encountered difficulties when installing a TDL into an existing or new system.

Mettler Toledo, innovator in the TDL field, authored a white paper illustrating some of the installation challenges and how they can be successfully and easily overcome using a properly adapted tunable diode laser gas analyzer. The paper is included below, taking only a few minutes to read. It's well worth the time spent.

Share your process analytical requirements and challenges with specialists in process analytical solutions, combining your own process knowledge and experience with their product application expertise to reach a successful outcome.

Folded Path Tunable Diode Laser Gas Analyzers from Alliance Technical Sales, Inc.

Retractable Sensor Housing for Analytical Sensors

The retractable sensor housings are available in several configurations

Process analytical sensors generally require some "care and feeding" to maintain specified performance levels. This maintenance can require removal of the sensor from the process in which it is inserted. Clearly, it is seldom advantageous to shut down a process for maintenance when it could otherwise remain in operation. The challenge - how to service the pH, redox, conductivity, or dissolved oxygen sensors without process interruption.

Mettler Toledo, under their Ingold brand of process analytic products, provides a solution in the form of a retractable sensor housing. Models accommodate sensors for pH, redox, conductivity, and dissolved oxygen. The housings are designed to enable safe retraction of the sensor from the process, with in place sensor cleaning or further maintenance operations made simple with the process remaining in operation.

The document below provides additional detail. Share your process analytical challenges with an application expert, combining your own process experience and knowledge with their product application expertise to develop effective solutions.

Retractable Sensor Housings for Analytical Sensors from Alliance Technical Sales, Inc.

Activated Carbon Adsorber as Backup for Thermal Oxidizer

Activated carbon backup for thermal oxidizer
Courtesy Process Combustion Corporation

Volatile organic compounds (VOC) are one class of air pollutants with emission limits described in law. Industrial plants that produce VOC as part of their processing must take steps for the removal or destruction of the pollutant prior to discharge in the atmosphere.

Thermal oxidization systems are routinely employed to remove volatile organic compounds from industrial emission air streams. The systems deliver some operational advantages.

• Ease of operation
• Flexibility to match process changes
• Continuous operation without need to change disposables
• No byproducts requiring further handling or disposal
• Simple process with small number of components
• Broad application range for VOC

Operation of the thermal oxidation system is essential to maintaining continuance of plant operations, since the oxidizer continually processes plant output. The potential costs associated with a work stoppage due to malfunction or maintenance of the thermal oxidation system may make the installation of a backup VOC processor a prudent business decision.

Activated carbon is a well recognized material for the capture of VOC. Along with the addition of other sorbents, the scavenging profile of the fixed adsorbent bed can be tailored to specific process demands. The activated carbon processor is essentially a filtration unit that traps the target compounds as discharged process air flows through the unit. It is a simple effective system with known performance parameters

An activated carbon adsorber will serve as an effective backup unit for a thermal oxidizer. The limitations of the activated carbon unit are its rated flow rate for which VOC removal is defined, as well as the fixed holding capacity of the adsorbent itself. Once spent, the adsorbent must be regenerated or replaced. In selecting a properly sized backup VOC adsorber, these factors should be taken into account.

Share your VOC pollution control challenges with specialists in the field. The combination of your own process knowledge and experience with their product application expertise will produce effective solutions.

Magnetostrictive Level Transmitter

Magnetostrictive level transmitter, showing electronics (head)
mounting plate, sensing tube, and float.
Courtesy Jogler

The numerous level control technologies, methods, and instruments all have an application range or niche where they provide a feature set and performance advantageous to other measurement means. The particular set of attributes that can push one instrument over the top in the selection process is specific to each user and application.

Magnetostrictive level transmitters provide a continuous signal indicating liquid level in a vessel. They should not be confused with what are called magnetic level gauges, an instrument that locally provides a visual indication of liquid level.

Magnetostrictive level measurement employs a precise measuring of the transit time for an electric pulse travelling on a wire extending down an enclosed tube oriented vertically in the subject media. A magnetized float on the exterior of the tube moves with the liquid surface. The float’s magnetic field interacts with a magnetic field produced along the wire to generate a return signal to the transmitter head. Processing the time from emission to return provides a measure of distance to the liquid surface.

These level transmitters offer good accuracy and ease of installation and maintenance. They are best applied with relatively clean fluids. Media that will impede the free movement of the float along the sensing tube should be avoided. Magnetostrictive level instruments are often employed alongside, or integrated with, a magnetic level gauge. The magnetic gauge provides a local indication of tank level, while the magnetostrictive transmitter delivers a level signal to monitoring and control equipment.

Share your level measurement requirements and challenges with a process measurement specialist, combining your own process knowledge and experience with their product application expertise to develop effective solutions.

Magnetostrictive Level Transmitter for Industrial Process Measurement from Alliance Technical Sales, Inc.

HF Scientific - Water Quality Measurement

Alliance Technical Sales recently commenced representation of HF Scientific, a manufacturer of water quality instrumentation and chemistry products. The arrangement complements the already broad line of analytical products offered by Alliance for fluid processing and analysis across a wide range of applications and industries.

Chloride & Sulfate Process Analyzer

Determining the levels of chloride and sulfate in water is especially useful to power plant operators. Contamination of the power plant process water by chloride and sulfate leads to corrosion, pitting, and stress corrosion cracking in pressurized equipment and piping. The deposits that can result from contamination reduce heat transfer efficiency. Boilers and turbines suffer under the effects of excessive chloride and sulfate levels, so monitoring of their levels at critical locations in the steam system provides operators with actionable information that can be used to maintain efficiency and reduce maintenance demand.

Mettler Toledo, under their Thornton brand, provides a reliable and affordable analyzer for chloride and sulfate concentration in water. The video included with this post outlines the operational advantages of microfluidic capillary electrophoresis, the measuring technology employed in their system.

Share your on-line process analysis challenges with product application specialists, combining your own process knowledge and experience with their product application expertise to develop and effective solution.

Complete Bioreactor Package for Streamlining Bioprocess Applications

Complete Bioreactor Systems 2 to 20 Liters
Courtesy ILS Automation

Planning, purchasing, and configuring a bioreactor and an associated control system can be a time consuming project that taxes the limits of your technical knowledge. Coordinating the connectivity of all the components and getting everything to work in harmony takes time away from devotion to the mission goals of your project or organization.

ILS Automation, experts at bioreactor process control, now offer fully packaged and integrated complete bioreactor systems that allow customers to get up and running with a minimized time commitment. The new packaged systems include reactor vessels from 2L to 20L and combine useful design principles into every unit.

• Non-proprietary components that are readily available.
• Design empowers customer, or a third party, to perform service.
• Software and interfaces match customer requirements.
• Complete documentation and source code provided.
• Ongoing support and technology upgrades made available

More detail is provided in the datasheet included below. Share your bioprocessing and analytical requirements and challenges with application experts. Combine your own process knowledge and experience with their product application expertise to develop effective solutions.

Complete Bioreactor Package for Streamlining Bioprocess Applications from Alliance Technical Sales, Inc.

Sensor Mount Transmitter Delivers New Functionality to Smart Sensors

The new M100 Sensor Mount Transmitter affixes directly
to ISM type sensors.

Smart sensors for pH, DO, and CO2 deliver a high level of performance and productivity enhancement for analytical users. Reduction in the time needed for sensor maintenance and calibration channel more time into delivering analytical results.

The new M100 SM (Sensor Mount) transmitter from Mettler Toledo streamlines the integration of their ISM smart sensors into bioprocess control systems. The transmitter mounts directly to the sensor, without the need for separately housed electronics. The compact configuration combines the advantages of the ISM smart sensor with several analog and digital outputs for connection to bioprocess controllers.

The M100 SM is available for use with  a variety of Mettler Toledo ISM sensors, including those for pH, DO, and CO2. The transmitters provide two 4-20 mA outputs and one digital Modbus RTU connection. Configuration and sensor status check can be accomplished via Bluetooth using a desktop PC or mobile device.

More detail is provided below. Share all your analytical challenges with application specialists, combining your own process knowledge and experience with their product application expertise to develop effective solutions.

Sensor Mount Transmitters For Smart Sensors from Alliance Technical Sales, Inc.

Properly Applying Flexible Heat Tape

Heat tape, with its flexibility, provides a good means of delivering heat to a wide range of process applications. It can be applied to pipes, vessels, or other objects that need to be heated for any number of reasons. The range of available product materials and watt densities assures that there is a heat tape configuration for almost every application. This video shows how to properly apply and install heat tape to get the best performance and maintain safe operating conditions.

Share your process heating requirements of all types with an industrial heating specialist, combining your process knowledge and experience with their product application expertise to develop effective solutions.

Expanded Tunable Diode Laser Parameter and Installation Range

The GPro 500 Series TDL Gas Analyzers
Courtesy Mettler Toledo

Inline continuous gas analysis is a necessary tool for effectively tracking emissions of many types. A tunable diode laser (TDL) can provide accurate continuous measurement of target gas concentration. With the proper installation configuration, the instruments exhibit no drift and are not subject to interference, offering a sustainable means of delivering needed process data.

Mettler Toledo, with the expansion of their GPro 500 Series of TDL instruments, now provides continuous gas concentration measurement solutions for carbon dioxide, carbon monoxide, oxygen, moisture, hydrogen sulfide, and hydrogen chloride.

Varying application conditions can present specific challenges to an effective installation of a TDL, so the GPro 500 is available in variants that accommodate a range of installation conditions.

• The standard probe is a purged configuration for general use.
• A non-purged version is suitable for reactor of other vessel installation.
• Combustion process measurements are handled by the non-purged filter probe, with a sintered filter to prevent dust from entering the measurement cell.
• High particulate combustion processes can be served by the filtered probe provided with a blow-back port. It allows high pressure instrument air to clean the filter.
• A wafer version, for tight spaces and pipes, is also available.
• Two adaptions are also available for use with existing sample conditioning equipment.
• A retroflector adapter enables a cross-pipe measurement. It is designed to forgo the need for alignment, making installation simple.

Tunable diode laser gas analyzers provide an effective means of continuous gas concentration measurement for the process industries and combustion operations. Share your process and combustion gas analysis challenges with a product application specialist, combining your own valuable process knowledge and experience with their product application expertise to develop effective solutions.

Silicone Rubber Heating Blankets - Special Delivery for Industrial Heating Applications

Silicone Rubber Heating Blanket
One of countless shapes and sizes
Courtesy Briskheat

Electric heaters for industrial and commercial applications are available in an almost dizzying range of types, materials, and forms. One of those is the silicone rubber heater.

Stock shapes and sizes are available from many manufacturers, but one distinct advantage of silicone rubber heaters is their flexibility. The resistance heater wires are encased in a silicone rubber sheet, providing the ability to wrap the assembly around an object or manipulate it into a close fit with the target of a heating application. The silicone rubber encasement also provides a high level of protection for the heater wires from impact, moisture, and some chemicals.

The watt density of the heaters can be specified to provide a good match between the delivery of heat and the need for it. Custom shapes and configurations can be manufactured to order, and on board or remote controllers provided. Pressure sensitive adhesive is a common option that facilitates the installation of the heater assembly to a part or vessel.

The maximum application temperature is in the range of +450°F (+232°). These heaters are a useful selection option for a large range of operations demanding heat to be applied directly to a surface, object, tank, drum, or other vessel. Share your industrial heating requirements with product specialists for the best match up between heater technology and your application.

Humidity Measurement - Technical Details

Industrial humidity measurement instrument
Courtesy Vaisala

Regardless of what industry you may be operating within, humidity, the moisture content of the air surrounding your work, has some degree of impact. Though that impact may be small enough to currently be ignored, building a basic understanding of the relationship of moisture and dry air, how humidity is measured, and how it can impact your operations will make you a more effective and valuable operator of whatever your process might be.

Vaisala, a leader in humidity measurement, has produced a resource in the form of an eBook that breaks down into understandable units various aspects of humidity measurement and the impact of humidity on industrial applications. The eBook contains a basic level of detail, plus provides links to more technical in-depth source material.

Everyone should find something of value in the eBook. Share your humidity questions, concerns, and challenges with product application specialists for assistance and cooperation in developing effective solutions.

Humidity Measurement Handbook for Manufacturing from Alliance Technical Sales, Inc.

Alliance Technical Sales Adds Industrial Process Heating

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.

Software For Bioreactors and Batch Processing Pulls Everything Together in One Place

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.

Batch Expert+ Boosts Lab Productivity from Alliance Technical Sales, Inc.

New Sensor For Measuring Total Chlorine

Zirkon® DIS Total - Total chlorine process sensor

Courtesy Kuntze Instrument

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. 

Share you process analytical and measurement challenges with experts in the application of instrumentation to process measurement. The combination of your process knowledge and their instrument application expertise will produce an effective solution.

Zirkon® DIS Total - Total chlorine process sensor from Alliance Technical Sales, Inc.