Our High Temperature Thermostats (Ambient to +350°C) are advanced temperature control units designed for precise heating of laboratory and pilot-scale process equipment. These systems circulate high-temperature thermic fluid through a closed loop to maintain stable temperatures in jacketed reactors, autoclaves, and thermal process systems. Equipped with PID-based thermostat control, high-capacity heaters, and efficient circulation pumps, the units ensure uniform heat transfer and temperature stability of up to ±0.5°C, enabling safe and reliable operation for demanding chemical, pharmaceutical, and materials processing applications.
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A High Temperature Thermostat is a specialized heating circulator designed to provide controlled heating at elevated temperatures for laboratory and pilot plant equipment. The system heats and circulates thermic fluid through a reactor jacket or external heat transfer loop to maintain the desired process temperature.
These systems are commonly used in applications where precise and stable heating above ambient temperatures is required for chemical reactions, material testing, or process development.
High temperature thermostats are designed to operate from ambient temperature up to approximately 350°C, depending on the heat transfer fluid and system configuration.
This wide temperature capability makes them suitable for processes such as polymerization, distillation, thermal stability studies, catalyst testing, and high-temperature synthesis, where consistent heating and accurate temperature control are essential for process safety and reproducibility.
High temperature thermostats are commonly used with equipment that requires controlled heating, including:
By circulating heated thermic fluid through the equipment jacket, the thermostat ensures uniform heat transfer and stable process temperatures.
Many chemical and pharmaceutical processes require precise temperature control at elevated temperatures. High temperature thermostats help maintain consistent heating conditions, preventing temperature fluctuations that could affect reaction kinetics, product quality, or process safety.
Modern systems also include safety features such as over-temperature protection, pump flow monitoring, safety interlocks, and programmable temperature control, ensuring safe and reliable operation during high-temperature processing.
