Description
"Overview
There are three ways in which a calorimeter may be designed. Heat measurements
may be based on the following:
• a temperature rise measured in a system of known heat capacity, (ΔT)
• the measured change in power (typically resistance heating) required to maintain
a system at a constant temperature (power compensation); and
• a direct measure of the heat flowing between the system and large heat sink
maintained at a constant temperature (heat flow).
Each method (ΔT, power compensation, and heat flow) has its advantages and
disadvantages. The TA Instruments Nano Isothermal Titration Calorimeter (ITC)
uses a differential power compensation design for maximum sensitivity and
responsiveness."
There are three ways in which a calorimeter may be designed. Heat measurements
may be based on the following:
• a temperature rise measured in a system of known heat capacity, (ΔT)
• the measured change in power (typically resistance heating) required to maintain
a system at a constant temperature (power compensation); and
• a direct measure of the heat flowing between the system and large heat sink
maintained at a constant temperature (heat flow).
Each method (ΔT, power compensation, and heat flow) has its advantages and
disadvantages. The TA Instruments Nano Isothermal Titration Calorimeter (ITC)
uses a differential power compensation design for maximum sensitivity and
responsiveness."
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Details
| Name | NANO Isothermal Titration Calorimetry |
|---|---|
| Acquisition date | 15-09-12 |
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Calorimetry
Titration
Calorimeters
Heat transfer
Temperature
Specific heat
Heating
Hot Temperature
Compensation and Redress