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Thermal Blocks & Circulators
How Thermal Blocks Get Their Temperature
Set Thermal Block Temperature
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Choosing A Circulator
Cooling Heating Both Temperatures
Have Different Temperatures
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Introducing MéCour’s temperature control systems video series.
Thermal Blocks & Circulators
How do the Thermal Blocks get their temperature?
How do you set the Thermal Block temperature?
What is the temperature range for the Thermal Blocks?
What is the plate well to well or tube to tube temperature stability?
What circulator is best for my application(s)?
What if I only need cooling, heating or both temperatures for the applications?
Can I have different temperatures from one circulator going to different Thermal Blocks?
How fast can I achieve the following temperature changes in the Thermal Block?
Can I program the Circulator and have it interface with other components?
How do you monitor the specific temperature of the Thermal Block and consumable?
What’s the difference between Peltier and MéCour Circulator driven thermal blocks?
How much space does the Thermal Block take up?
Can I expand the size of the thermal system for more plates or tubes?
Does the Thermal Block throw off any temperature?
Should I be concerned with leaks and contamination issues related to using a circulator?
What if I need to move the Thermal Block away from the circulator for cleaning?
What type of thermal fluid is used ?
Does MéCour provide thermal systems, particularly Circulators for use on a global basis?
What is the size of the circulator, electrical power requirements and how quiet is it?
How stable is the bath temperature of the circulator?
Q: Do I need a heating circulator, cooling circulator, or both for my applications?
A:
MéCour will recommend the correct heating circulator or cooling circulator for your specific application and ensure you have the required cooling and heating power. Circulators can provide either straight cooling, heating or do both.
