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Measurement of Enthalpy and Internal Energy using Flow Calorimeter
The use of the first law for open or closed systems necessitates the experimental determination (or, estimation from thermodynamic relations) of internal energy and enthalpy, both being state properties. The flow calorimeter (fig. 3.8), readily allows measurement of enthalpy, which in turn can be used to compute the internal energy at the same conditions of (say) temperature and pressure. The fluid whose properties are to be measured is pumped through a constant temperature bath so that it attains a desired temperature (say T1) prior to entry into the vessel provided with an electric heater. The corresponding pressure (P1) may also be recorded. Heat is next provided to the passing fluid at a pre-determined and fixed rate over a period of time until the temperature and pressure at the exit of the vessel attains steady values (say, T2 , & P2 ). At such a condition the calorimeter is under steady state, hence eqn. 3.41 may be applied to the heating vessel. Since there is no work transfer of any kind, the resultant energy balance yields:
ΔH = Q ...(3.40)
Or: H2 – H1 = Q
So: H2 = H1 + Q ...(3.41)
Clearly, if we chose the enthalpy H1 to be a datum state and arbitrarily assign it a zero value, then:
H2 = Q ...(3.42)
he last equation then allows one to uniquely determine the value of H2 at any condition achieved at state 2 by applying a known quantity of heat through the electric heating system. The internal energy at the same state can next be determined using the relation:
U = H – PV
Further we can measure the density (in terms of mass or mole) at the same state, and one may rewrite the last equation as:
U = H – P/ρ ..(3.43)
Thus using the above relations, U and H may be obtained experimentally at any P, T (and/or V) for any substance. The steam tables discussed at the concluding portion of section 2.1 constitutes such a tabulation of values of standard thermodynamic properties (saturation vapour pressure, internal energy, enthalpy (and entropy) of water obtained empirically over a wide range temperature and pressure.
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FAQs on Measurement of Enthalpy & Internal Energy Using Flow Calorimeter - Thermodynamics - Mechanical Engineering
| 1. What is a flow calorimeter and how is it used to measure enthalpy and internal energy? |  |
A flow calorimeter is a device used to measure the heat transfer in a fluid flowing through it. It consists of a chamber with an inlet and an outlet for the fluid, and a temperature sensor to measure the temperature difference between the inlet and outlet. To measure enthalpy and internal energy, the calorimeter is used to determine the heat transfer in a process, which can then be related to the change in enthalpy or internal energy using the equation Q = mCΔT, where Q is the heat transfer, m is the mass of the fluid, C is the specific heat capacity, and ΔT is the temperature change.
| 2. How does a flow calorimeter differ from other calorimeters? | |
A flow calorimeter differs from other calorimeters, such as bomb calorimeters or constant pressure calorimeters, in that it allows for continuous flow of the fluid being studied. This makes it suitable for measuring enthalpy and internal energy changes in processes with flowing fluids, such as in industrial applications or chemical reactions. Other calorimeters may be designed for specific purposes, such as determining the energy content of a solid or measuring heat changes at constant pressure, but a flow calorimeter is specifically designed for measuring heat transfer in flowing fluids.
| 3. What are some applications of flow calorimeters? | |
Flow calorimeters have a wide range of applications in various industries and research fields. Some common applications include measuring heat transfer in chemical reactions, determining the energy content of fuels, studying heat exchange in heat exchangers, and analyzing the efficiency of energy conversion processes. They are also used in the development and optimization of industrial processes to ensure efficient energy utilization and to monitor and control heat transfer in various systems.
| 4. What are the advantages of using a flow calorimeter for measuring enthalpy and internal energy? | |
Flow calorimeters offer several advantages for measuring enthalpy and internal energy changes. Firstly, they allow for continuous monitoring of heat transfer, providing real-time data on energy changes in a flowing fluid. Secondly, they can handle a wide range of flow rates and fluid types, making them versatile for various applications. Additionally, flow calorimeters are relatively easy to operate and provide accurate results when calibrated properly. Finally, they can be used in both laboratory and industrial settings, allowing for scale-up and practical implementation of energy measurement and optimization.
| 5. How can the accuracy of measurements obtained from a flow calorimeter be ensured? | |
To ensure accurate measurements from a flow calorimeter, several factors need to be considered. Firstly, proper calibration of the calorimeter is essential, which involves calibrating the temperature sensor, determining the specific heat capacity of the fluid, and accounting for any heat losses in the system. Secondly, the flow rate and temperature measurements need to be precise and properly recorded. Any potential sources of error, such as heat losses through insulation or inaccurate flow rate measurements, should be minimized. Finally, conducting multiple measurements and averaging the results can improve the accuracy of the measurements and account for any experimental variations. Regular maintenance and periodic recalibration of the calorimeter are also recommended to ensure reliable and accurate measurements over time.
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