Industrial Heater Chiller

Industrial Heater Chiller

The industrial heater chiller can not only control the temperature of the heat transfer medium, but also the temperature of the reaction material. It is often used in various industrial applications. So, in which industries can it be applied?

First, research and development laboratories

In the research and development field, temperature control plays a role in both sample pretreatment and quality control. Many applications require prior temperature treatment as part of sample preparation. Many quality control procedures require samples to be subjected to defined temperature points or temperature changes over a specific period of time.

Typical applications in research and development laboratories:

1. Sample preparation

2. Quality control

3. Research laboratories

Second, the field of chemistry

In many processes in the chemical field, temperature plays a certain role in process engineering and reactor temperature control. Chemical reactions, syntheses, production of pharmaceutical building blocks, polymerizations and crystallizations are carried out in temperature-controlled reactors.

Typical applications in the field of chemistry:

1. Reactor temperature control

2. Process engineering

Third, biotechnology

In biotechnology, temperature control determines the quality of research and development and production results. Thermostatic control of the bioreactor plays a role in successful production. There are many production steps that require reliable temperature control as part of sample preparation.

Typical applications of biotechnology:

1. Sample preparation

2. Bioreactor

Fourth, the pharmaceutical industry

In the field of pharmaceuticals, temperature control processes are ubiquitous from research to production scale-up. In order to obtain high-quality reaction products, the temperature control system needs to perform stable and reliable process temperature control on the external reactor.

Typical applications in the pharmaceutical industry

1. Reactor temperature control

2. Process engineering

Fifth, the automotive field

The requirements for temperature control in the automotive industry are generally in test benches and material testing. All automotive components are subject to temperature fluctuations. It is especially important to test components on special benches. It is also important to simulate the environmental conditions in which the material will be used, whether at low or high temperatures.

Typical applications in the automotive field:

1. Test bench application

2. Material testing

Sixth, the field of semiconductor industry

Processes requiring accurate temperature control abound in semiconductor production and testing of electronic devices. This includes, for example, the use of metal-organic chemical vapor deposition (MOCVD) in the coating process for producing LED wafers. Other typical applications in the semiconductor industry such as functional stress testing and load testing, environmental condition simulation and online integrated circuit performance testing, etc.

Typical applications in the semiconductor industry:

1. Process cooling

2. Component testing

Seventh, aviation field

Temperature simulation and temperature testing of materials are integral parts of the aerospace field. Cyclic temperature change stress testing ensures that the components used do not fail, even under the harsh external conditions fluctuating in space.

Typical applications in the aviation field:

1. Material testing

2. Temperature simulation

Eighth, the field of medical technology

In the field of medical technology, temperature control is mainly used in sample preparation in laboratories; and in medical equipment such as imaging equipment, medical lasers or devices in pharmaceutical and medical laboratories.

Typical applications in medical technology:

1. Medical laboratory

2. Medical equipment

Maßgeschneiderte Lösungen für Ihr Unternehmen

Kühl- und Heizsysteme (Serie SUNDI)

Temperaturregelbereich: -120°C bis +350°C

Anwendung: Verschiedene Reaktoren (Mikrokanäle, Glas, ummantelte Reaktoren usw.), Destillations- oder Extraktionssysteme, Labor, Universität, Forschungsinstitut, Luft- und Raumfahrt, Automobilindustrie, Halbleiter- und Elektrotests, Chemie, Pharmazie, Petrochemie, Biochemie, Medizin, Krankenhaus, F&E-Werkstatt, Luft- und Raumfahrt, Biologie und andere Industrien.

Kühl- und Heizsysteme (WTD-Serie)

（Mikrokanal / Röhrenreaktoren spezialisiert）

Temperaturregelbereich: -70°C bis +300°C

Spezielles Design für Mikrokanäle (geringe Flüssigkeitsspeicherkapazität, starke Wärmeaustauschkapazität, Zirkulationssystem mit hohem Druckabfall)

Kühl- und Heizsysteme (TES-Serie)

Temperaturregelbereich: -85°C ~ +250°C

Temperaturregelungsgenauigkeit: ± 0,3°C

Kühl- und Heizmaschinen (LTS-Serie)

Temperaturregelbereich: -80°C bis +80°C

Es wird häufig in der Halbleiterindustrie eingesetzt, um die Temperatur der Reaktionskammer, der Heizplatte und des nicht brennbaren Wärmeträgers zu regeln.

Umwälzpumpen für Kühlung und Heizung

Temperaturregelbereich: -45°C bis +250°C

Anwendung: Verschiedene Reaktoren (Mikrokanäle, Glas, ummantelte Reaktoren usw.), Destillations- oder Extraktionssysteme, Labor, Universität, Forschungsinstitut, Luft- und Raumfahrt, Chemie, Pharmazie, Petrochemie, Biochemie, Medizin, Krankenhaus, F&E-Werkstatt, Luft- und Raumfahrt, Biologie und andere Industrien.

Heizungsumwälzpumpen

Temperaturregelbereich: +50°C bis +300°C

Hinweis: Die UC-Serie kann die Temperatur des Wärmeträgermediums regeln. Die UST-Serie kann nicht nur die Temperatur des Wärmeträgermediums, sondern auch die Temperatur des Reaktionsmaterials regeln.

TCU Multireaktoren Temperaturkontrollsystem

Temperaturregelbereich: -120°C bis +250°C

Anwendung: Verschiedene Reaktoren (Mikrokanäle, Glas, ummantelte Reaktoren usw.), Destillations- oder Extraktionssysteme, Labor, Universität, Forschungsinstitut, Luft- und Raumfahrt, Chemie, Pharmazie, Petrochemie, Biochemie, Medizin, Krankenhaus, F&E-Werkstatt, Luft- und Raumfahrt, Biologie und andere Industrien.