In calorimeter experiments, we obtain the thermogram y = y( t), temperature variation y( t) as a function of time t, when thermal reaction occurs in the calorimeter reaction cell. For thermokinetic studies, we need to know the calorific power generated in the cell, due to the thermal ...
Microcalorimeter capacity permitted only two estimates per time point. Calorespirometry uses a ratio of heat production (Rq; kJ g−1) and respiration (RCO2; mol CO2–C g−1) known as the calorespirometric ratio (CR; kJ mol−1 CO2–C) to infer CUE through the following relationship ...
6. Transfer each reaction mixture to a glass cuvette and measure absorbance at λ=410 nm using a calorimeter or a spectrophotometer. Prepare the standard nitrate curve, calculate the equation for the best-fit straight line, and perform linear regression. Preferably, the square of the correlation ...
where: Cs (F/g) is a supercapacitor specific capacitance and V is the voltage change during the discharge process after IR drop. 2.4.5. Differential Scanning Calorimetry (DSC) Thermograms for all investigated samples were collected with the Differential Scanning Calorimeter DSC 3 (Mettler Toledo,...
The calorimeter detector structure is segmented into individual square-shaped modules that perform the energy measurement. Each module is made from lead absorber plates interspaced with scintillator tiles as active material and has a variable number of readout cells, depending on the position. To ...
, and a LECO AC 500 isoperibolic calorimeter (Leco, St. Joseph, MI, U.S.A.). Dust explosiveness analyses were carried out using the KSEP20 device equipped with a control unit KSEP 310 (Kuhner AG, Basel, Switzerland). The device featured a test chamber in the form of a ball with...