AC electric motors are found in a wide variety of industrial, commercial, and residential applications. Industrial maintenance technicians must develop industry-relevant skills, such as how to operate, install, design, and troubleshoot AC electric motor control circuits for various applications.
Pignat’s OTP Pilots simulate full-scale industrial processes, giving students and professionals a realistic, high-fidelity environment to explore advanced chemical engineering operations. These systems replicate complex processes like controlled continuous distillation, CO₂ absorption and regeneration, and distillation control using industrial-grade components and instrumentation.
Designed for universities, pilot plants, and advanced workforce development centers, OTP Pilots emphasize safety, control systems, and operational efficiency. Learners gain experience with real process variables, troubleshooting, and scalable process optimization—preparing them for roles in chemical manufacturing, environmental engineering, and process design.
Absorption processes are critical in gas-liquid operations where a component from a gas phase is transferred into a liquid solvent. Commonly used in environmental control (e.g., CO₂ capture) and chemical production, these systems help study parameters such as gas solubility, contact efficiency, and column dynamics. Educational units like Pignat’s ABS/100 and ABS/2000 provide hands-on training in both manual and automated gas absorption processes, reinforcing understanding through transparent components and real-time instrumentation.
Adsorption is a surface-based separation technique in which molecules from a fluid phase adhere to a solid surface, often used for purification, drying, and environmental applications. With units like ADM/2000 and ADS/2000, learners can explore gas-solid and liquid-solid adsorption in lab and pilot scales. These systems support detailed study of breakthrough curves, isotherms, and regeneration cycles, making them ideal for chemical engineering and process technology programs.
Crystallization is a key method for purifying solid compounds from liquids and is widely used in pharmaceuticals, food processing, and chemical manufacturing. Pignat’s CRA/100 and CRA/200 systems enable the study of both batch and continuous crystallization. These units support investigation into cooling and evaporation methods, crystal size distribution, and process optimization—ideal for demonstrating real-world industrial separation techniques in an academic setting.
Distillation is a fundamental separation technique that exploits differences in boiling points to purify or fractionate chemical mixtures. Pignat’s product line ranges from lab-scale DVI/100 and DVI/300 mini units to advanced pilot-scale DVI/6000 systems. These solutions cover essential concepts like mass and energy balances, reflux ratios, thermosiphon reboilers, and differential pressure monitoring, preparing students and professionals for real-world industrial distillation operations.
An ebulliometer is used to determine the boiling point of liquids and study vapor-liquid equilibrium, a core topic in thermodynamics. Pignat’s EEA/1000 and EEA/2000 ebulliometers allow for both manual and automated experiments, supporting instruction in azeotrope formation, Raoult’s Law, and boiling point elevation. These compact units serve as vital tools in chemical engineering labs focusing on phase equilibrium and fluid properties.
Liquid-liquid extraction is a separation method used to isolate compounds based on solubility differences in two immiscible liquids. Pignat’s ELA/100 and ELA/3000 stirred extraction units, along with the ELM/2000 mixer-settler system, allow learners to explore batch and continuous extraction processes. These systems are ideal for studying partition coefficients, emulsion formation, and separation efficiency in pharmaceutical, food, and chemical industries.
Evaporation is essential for concentrating solutions by removing solvents, typically water, through thermal energy. Pignat offers both simple (EVV/100) and multiple-effect (EVV/1000, EVV/2000) evaporators to demonstrate core concepts like heat transfer, boiling point elevation, and energy savings through effect cascading. These units are ideal for exploring process efficiencies and the design considerations found in food processing and chemical production.
Filtration is a solid-liquid separation process that is foundational in industries such as pharmaceuticals, water treatment, and chemical manufacturing. Pignat’s FSP/3000, FIL/2000, and FIP/2000 units offer varied filtration methods and study parameters such as flow rate, cake resistance, and filter media selection. These systems enhance student comprehension of industrial-scale separation challenges while maintaining hands-on laboratory relevance.
Chemical reaction systems provide students with practical experience in kinetics, reactor design, and process control. Pignat’s REA/2000 and REA/3000 reactors offer both basic and computerized training platforms to investigate isothermal and non-isothermal reactions. These units are designed to demonstrate fundamental reaction engineering principles, including residence time distribution, catalyst behavior, and heat effects, preparing learners for diverse applications in chemical and pharmaceutical industries.
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Item Number:SLTTrain operators efficiently and safely with Simlog's Stand Up Counterbalanced Lift Truck Personal Simulator. Perfect for OSHA Class 2 training, it features photo-realistic graphics, configurable controls, and multi-display options. -
Item Number:274DAC Worldwide’s Steam Trap Cutaway Assortment - 4 Components (274) includes four industrial traps – float and thermostatic trap, inverted bucket trap, thermodynamic trap, and thermostatic trap – for hands-on skill-building using industrial steam traps. -
Item Number:249-PACDAC's 249-PAC is a complete steam turbine training aid used on industrial equipment, such as pumps, fans, blowers, and air compressors. -
Item Number:MCK-UALB-MR2Students design, build, and program drones for aerial search and rescues, GPS-guided crop dusting, autonomous deliveries to remote locations, and other compelling industry-related challenges. -
Item Number:MCK-FDLB-4x4Introduce students to robotics with easy to assemble and modify rovers that feature real-world applications. Working collaboratively, students build and program advanced robots. -
Item Number:MCK-FDLB-6X6The MINDS-i Foundations Curriculum as an introduction to STEM and Robotics designed as an interactive approach to applied science, technology, engineering, and math. In this course, students will become familiar with the basics of robotics and programming through teamwork -
Item Number:MCK-FDTR-001This fully assembled and programmed robotics breadboard accompanies the MINDS-i Foundations Curriculum. Designed to help teach programming, it allows you and your students to physically interact with the sensors on a stationary platform and can be used as a quick and easy method for checking your students' wiring and code. -
Item Number:ELA/100The unit is used manually, with flows controlled by manual valves and flowmeters. The unit has a stirred glass column, which enhances the visual experience of the extraction process. Students will learn how to determine the interphase level, material balance, efficiency of the column, and more. -
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