How ISM™ Digital Technology Enhances Quality in Pharmaceutical and Chemical Industries

ISM™ Digital Technology Enhances Quality in Pharmaceutical and Chemical Industries

Intelligent Sensor Management (ISM™) is a digital technology enhancing process analytical measurements. ISM systems, applied in monitoring pH, dissolved oxygen, and other critical parameters, assist pharmaceutical and chemical companies globally in ensuring process consistency and product quality. This video underlines the primary advantages of ISM digital sensors and ISM Core™ software.

Learn More About ISM from This Mettler Toledo Video


Alliance Technical Sales
https://alliancets.com
630-321-9646

The Role of TDL Analyzers in Ensuring Safety and Efficiency in Industrial Processes

The Role of TDL Analyzers in Ensuring Safety and Efficiency in Industrial Processes

A Tunable Diode Laser Analyzer (TDLA) is an analytical instrument that employs the technique of tunable diode laser absorption spectroscopy (TDLAS) for the measurement of concentration or moisture content in a process gas mixture. It works based on the principle that molecules absorb light at specific frequencies, and the amount of light absorbed is proportional to the concentration of the molecules.

How TDLA Works:


  • A diode laser emits light at a specific frequency towards the sample gas.
  • The sample gas absorbs some of the light depending on the concentration of the specific molecules.
  • The remaining light passes through the gas and reaches a detector on the other side.
  • The concentration of the gas can be determined by analyzing the intensity of the received light and comparing it to the emitted light.

Advantages of TDLA:

  1. Non-contact Measurement: TDLAs do not come in direct contact with the gas being analyzed, which is beneficial when the gas might be corrosive or at high temperatures.
  2. Fast Response: They provide almost real-time measurement, which is crucial in many industrial applications.
  3. Low Maintenance: They require minimal maintenance due to the lack of moving parts and direct contact with the sample.
  4. High Sensitivity and Precision: TDLAs can detect even low concentrations of gases with high accuracy.

Industrial Applications of TDLA:

  1. Power Plants: For measuring oxygen, carbon monoxide, and ammonia concentrations for combustion control and emissions monitoring.
  2. Petrochemical: In refineries, TDLAs monitor the concentration of different gases in processes such as reforming or ethylene production.
  3. Steel Industry: For measuring oxygen concentration in blast furnaces or carbon monoxide in coke ovens.
  4. Cement Industry: To monitor the concentration of gases like carbon monoxide or oxygen in kilns.
  5. Chemical Production: TDLAs monitor reactant and product concentrations in real time to ensure the optimal production rate.
  6. Natural Gas Processing: TDLAs measure moisture content, crucial in processing and transporting natural gas.
  7. Environmental Monitoring: TDLAs can be employed in stack monitoring systems to measure concentrations of pollutants.
METTLER TOLEDO's TDL analyzers stand out for their rapid and precise measurement capabilities. Notably, they offer minimal maintenance needs and remain unaffected by background gases, guaranteeing consistent results. The GPro 500 series, a notable line of tunable diode laser spectrometers from their collection, is engineered with diverse process adaptations, ensuring a tailored fit for your specific process needs and measurement criteria, underlining METTLER TOLEDO's commitment to versatility and precision.

In summary, Tunable Diode Laser Analyzers are sophisticated devices offering precise, fast, and reliable gas concentration measurements in various industrial settings. Their non-intrusive nature and low maintenance make them especially attractive for harsh industrial conditions.

Alliance Technical Sales, headquartered in Clarendon Hills, Illinois, can help you specify and apply Tunable Diode Laser Analyzers. Contact them at 630-321-9646 or visit their website at https://alliancets.com.

The Crucial Need for Timely Freeze Protection in Modern Commercial and Industrial Facilities

Freeze Protection in Modern Commercial and Industrial Facilities

As the winter months approach, the need for freeze protection in commercial and industrial facilities grows increasingly urgent. Today's commercial and industrial complexes aren't just basic storage units or manufacturing hubs; they are sophisticated, multi-dimensional entities often housing intricate machinery, expensive equipment, and digital infrastructure. The broad exposure of these facilities to various risks, particularly when under-prepared for cold weather, can result in significant losses.

Every year, many facility managers postpone or overlook freeze protection measures, believing they have ample time or aren't critically necessary, a precarious misjudgment. Given the multifaceted nature of modern facilities, even a minor freeze event can cause a cascade of issues. Water pipes can burst, causing flooding; machinery can malfunction, leading to production halts; and electronic systems can fail, resulting in data losses.

Apart from the direct damages, the ripple effects of such events can be monumental. Disrupted operations can lead to missed deadlines, lost contracts, and a tarnished reputation in the marketplace. Furthermore, the financial implications of repairs, replacements, and potential legal claims can be staggering.

In today's fast-paced, highly interconnected commercial world, downtime is a luxury most businesses can't afford. It is not just about the immediate monetary losses but the long-term impact on brand trust and customer loyalty. Preventative measures, like early freeze protection, are cost-effective and essential for ensuring uninterrupted operations.

The importance of timely freeze protection in contemporary commercial and industrial facilities is not to be overstated. By addressing potential risks proactively, businesses can safeguard their operations, protect their assets, and maintain their standing in the competitive market landscape. It's a small investment with a profound payoff: ensuring the smooth continuity of operations, regardless of the weather.

Established as a benchmark in the electric heating industry, BriskHeat has been dedicated to providing customers with top-tier heating solutions tailored to a myriad of applications. Recognized for their innovative approach, BriskHeat has developed a wide range of products designed to address the specific challenges posed by freezing temperatures.

BriskHeat's capabilities are not confined to a single product or application; they span a diverse spectrum of applications ranging from commercial to industrial needs. At the core of their product lineup are freeze protection solutions. These products are meticulously designed to prevent damage to equipment, machinery, and infrastructure during cold weather. They have consistently demonstrated their expertise in ensuring that businesses can operate seamlessly, regardless of how low the temperatures drop.

The BriskHeat product offering includes:
  • Drum/Pail Heaters & Insulators
  • Wraparound Tote Tank/IBC Heaters & Insulators
  • Silicone Rubber Tote Tank/IBC Heater & Control
  • Hazardous-Area Rated Silicone Rubber Drum Heater
  • XtremeFLEX® Silicone Rubber Heating Tapes
  • RKP XtremeFLEX® Silicone Rubber Heating Tapes
  • XtremeFLEX® Silicone Rubber Heating Tapes
  • Digital Temperature Controllers
  • Outdoor Digital Controllers
  • Ambient Sensing Capillary Temperature Controllers
  • On/Off Thermostats
  • Bulb & Capillary Temperature Controllers
  • Hazardous-Area Equipment Bulb & Capillary Controllers
  • Hazardous-Area Silicone Rubber Heating Blankets
  • Heavy-Duty Silicone Rubber Heating Blankets
  • Standard-Duty Silicone Rubber Heating Blankets
  • Enclosure Heaters
  • Crankcase Heaters for HVAC/R Compressors
  • Mica Band & Nozzle Heaters
  • Screw Plug Immersion Heaters
  • Immersion Cartridge Heaters
To learn more about these products, visit this Alliance Technical Sales link and open the "2023 Electric Heating and Freeze Protection Solutions" link.

BriskHeat is a beacon of reliability and innovation in the electric heating world. Their commitment to excellence, especially in freeze protection products, positions them as a trusted partner for businesses aiming to combat the challenges of winter with confidence. For more information about BriskHeat products in Indiana, Illinois, Iowa, and Wisconsin, contact Alliance Technical Sales. Contact them at 630-321-9646 or visit their website at https://alliancets.com.

Process Analytics: Measuring and Controlling Vital Parameters in Industrial Applications

Process Analytics

Process analytics is fundamental to many industrial applications, particularly in water treatment, chemical processing, food and beverage production, and pharmaceutical manufacturing. These operations often depend heavily on precisely monitoring and controlling specific process parameters, such as pH, oxidation-reduction potential (ORP), dissolved and gaseous oxygen, dissolved CO2, ozone, conductivity, and turbidity. Understanding these parameters and how they can be effectively measured and regulated is critical to maintaining optimal process conditions, ensuring product quality, and complying with environmental and safety regulations.

What is Process Analytics?


Process analytics is the systematic analysis of various industrial processes to optimize performance and efficiency. It involves collecting, processing, and interpreting data to monitor process performance, pinpoint issues, make informed decisions, and implement operational improvements. The specific parameters monitored will vary depending on the industry and process in question, but they typically relate to the process medium's chemical, physical, and biological characteristics.

Understanding Key Parameters

pH

pH is a critical parameter in many industrial processes as it measures the acidity or alkalinity of a solution. It is essential in chemical reactions, biological processes, and corrosion control. Process analytics involves continuously monitoring pH to ensure it stays within specified limits. pH sensors, typically comprising a reference electrode and a pH-sensitive glass electrode, are used to measure this parameter.

Oxidation-Reduction Potential (ORP)

ORP measures the tendency of a solution to either gain or lose electrons, essentially quantifying its oxidizing or reducing potential. This parameter is critical in chemical reaction processes like wastewater treatment and disinfection. ORP sensors, similar to pH sensors, utilize a reference electrode and a sensing electrode to provide a voltage output proportional to the solution's ORP.

Dissolved and Gaseous Oxygen

A process's dissolved and gaseous oxygen concentration can significantly impact chemical reactions, microbial activity, and oxidation processes. Oxygen sensors, which can be optical or electrochemical, measure the oxygen present. The sensors apply in various applications, including fermentation, water treatment, and combustion control.

Dissolved CO2

In processes like fermentation, brewing, and carbonation, the concentration of dissolved CO2 is a critical process parameter. Too much or too little can dramatically affect product quality and process efficiency. Infrared absorption or chemical sensing methods are often used to measure dissolved CO2 levels.

Ozone

Ozone is a powerful oxidizing agent used in water treatment and bleaching processes. Concentration needs close control to ensure effective treatment while minimizing the risk of harmful byproducts. Ozone sensors usually work by measuring the absorption of UV light, a characteristic property of ozone.

Conductivity

Conductivity measures a solution's ability to conduct electricity related to the concentration of ions in the solution. It's a crucial parameter in processes involving aqueous solutions, such as water treatment and chemical production. Conductivity sensors typically operate based on the principle of Ohm's law.

Turbidity

Turbidity measures the cloudiness or haziness of a fluid caused by suspended solids. It is a crucial parameter in water and wastewater treatment, as it can indicate the effectiveness of filtration processes and the presence of pathogens. Turbidity sensors usually work by measuring the scattering and absorption of light.

The Role of Process Analytics


Process analytics plays a critical role in modern industrial operations. By continuously monitoring these parameters and controlling them within defined limits, operators can maintain optimal process conditions, maximize efficiency, and ensure the quality and consistency of their products. Furthermore, data from process analytics can be used for predictive maintenance, helping to prevent equipment failure and reduce downtime.

In summary, process analytics provides invaluable insights into industrial operations, offering real-time visibility and control over critical process parameters. As technology advances, process analytics capabilities will expand further, bringing even more significant benefits to a wide range of industries.

Alliance Technical Sales, headquartered in Clarendon Hills, Illinois, are experts in evaluating, specifying, and applying process analytics instrumentation across many industries. Contact them at 630-321-9646 or visit their website at https://alliancets.com.

From Safety to Efficiency: Why Industrial Electric Tote Heaters are Key in Process Plants

From Safety to Efficiency: Why Industrial Electric Tote Heaters are Key in Process Plants

Industrial electric tote heaters, also known as IBC (Intermediate Bulk Container) tote heaters, play a crucial role in the daily operations of manufacturing facilities and process plants. Their importance stems from their capabilities to maintain, raise, or lower the temperature of the contents inside the IBC totes, which can be critical for a variety of reasons:
  1. Process Optimization: Many industrial processes require specific temperature maintenance for optimal efficiency. If the temperature is too low or too high, the process might not work as effectively or be damaged. IBC tote heaters ensure that the materials remain at the optimal temperature throughout the process.
  2. Preventing Material Solidification: Certain materials, such as certain oils, chemicals, or foodstuffs, can solidify or thicken at low temperatures, making them difficult to work with or damaging equipment. Tote heaters can prevent this from happening by maintaining a stable temperature.
  3. Improving Material Flow: By maintaining or increasing the temperature of the materials, tote heaters can improve the flow of viscous materials, making processes more efficient and preventing blockages in machinery.
  4. Safety: In some cases, materials might need to be kept at a specific temperature to prevent them from becoming hazardous. For example, certain chemicals might become volatile or corrosive if they get too cold or too hot. Tote heaters can help maintain a safe temperature.
  5. Product Quality: Maintaining the correct temperature can also be necessary to ensure the final product's quality. For example, a food product at the wrong temperature could spoil or develop off-flavors.
  6. Cost-Efficiency: Electric tote heaters are often more energy-efficient than other heating methods, which can save money in the long term. They also provide uniform heat distribution, which is more efficient and prevents hotspots.
  7. Flexibility: Many electric tote heaters are adjustable and portable, quickly moved between different totes or adjusted to accommodate other materials or process requirements.
Electric tote heaters are essential to many manufacturing facilities and process plants by providing precise temperature control, safety, and process efficiency. They enable these facilities to function effectively, safely, and economically.

Alliance Technical Sales 
https://alliancets.com
630-321-9646

LIDAR Non-contact Level Transmitters

LIDAR Non-contact Level Transmitters

LIDAR (Light Detection and Ranging) level transmitters are a type of sensor that uses laser technology to measure the distance between the sensor and the surface of a material. They are used in various industrial applications to detect the level of materials in a process. Here are some of the benefits of using these devices:


  1. High Accuracy: LIDAR level transmitters can provide accurate measurements, often down to the millimeter level, making them highly effective for precise measurement tasks.
  2. Non-Contact Measurement: These devices use lasers for measurement, so they do not need to touch the material physically, making them ideal for use with corrosive, hot, or otherwise hazardous materials.
  3. Versatile: LIDAR level transmitters measure the level of a wide range of materials, including solids, liquids, and sludges.
  4. Long Range: These devices can typically measure distances up to several hundred meters, making them suitable for use in large tanks and silos.
  5. Real-Time Monitoring: LIDAR level transmitters can provide real-time level data, automating processes and improving efficiency.
  6. Resistance to Interference: Unlike other types of sensors, LIDAR level transmitters are unaffected by dust, steam, or other environmental factors, making them reliable even in difficult operating conditions.
  7. Low Maintenance: These devices generally require less maintenance than other level sensors due to their non-contact nature.


LIDAR level transmitters are typically best suited for materials that have a relatively flat and reflective surface, as this allows the laser reflection back to the sensor. They are effective with various materials, including multiple liquids (like water, oil, and chemicals), bulk solids (like grain, coal, and plastic pellets), and even sludges or slurries. However, they may not be as effective with highly absorbent materials or have a very uneven surface, as this can scatter the laser light and make it difficult for the sensor to detect the reflection.


Alliance Technical Sales
https://alliancets.com
630-321-9646