Add to ORKGThe paper briefly reviews four existing analytical methods for the solution of the Fourier’s equation in cooling load calculations. The performance of nine different procedures (the four methods and their modifications) is presented on an example of heat transmission through a heavy wall under realistic external conditions. For the current case it was proved that the admittance method gives results similar to those obtained by the periodic response factors (PRF) approach, which is normally considered to be more advanced. Possible errors were found in the previously published coefficients for one of the PRF modifications
An analytical solution is presented for the transient, non-periodic, one-dimensional, non-homogeneou...
Two methods of calculating the periodic heat flow through solid walls of roofs are described. The ma...
A new technique for dealing with the problem of the numerical simulation of heat conduction in solid...
The paper briefly reviews four existing analytical methods for the solution of the Fourier’s equatio...
The paper briefly reviews four existing analytical methods for the solution of the Fourier’s equatio...
The paper briefly reviews four existing analytical methods for the solution of the Fourier’s equatio...
The author uses the response factor determination method in calculating transient heat flow through ...
Thermal mass in building envelopes reduces the magnitude of diurnal conductive loads and, in some ca...
Transient heat transfer can be characterized by the concept of heat transfer when heated (cooled) ma...
This paper presents a simple time domain calculation method to derive thermal response factors and c...
This paper presents a simple procedure for calculating the thermal response factors and conduction t...
A new cooling load calculation procedure, the transfer function method, has been incorporated in the...
An analytic solution for transient heat transfer in a composite wall subjected to explicit solar rad...
The object of this investigation was to examine the transient heat flow through a composite wall. Th...
The object of this investigation was to examine the transient heat flow through a composite wall. Th...
An analytical solution is presented for the transient, non-periodic, one-dimensional, non-homogeneou...
Two methods of calculating the periodic heat flow through solid walls of roofs are described. The ma...
A new technique for dealing with the problem of the numerical simulation of heat conduction in solid...
The paper briefly reviews four existing analytical methods for the solution of the Fourier’s equatio...
The paper briefly reviews four existing analytical methods for the solution of the Fourier’s equatio...
The paper briefly reviews four existing analytical methods for the solution of the Fourier’s equatio...
The author uses the response factor determination method in calculating transient heat flow through ...
Thermal mass in building envelopes reduces the magnitude of diurnal conductive loads and, in some ca...
Transient heat transfer can be characterized by the concept of heat transfer when heated (cooled) ma...
This paper presents a simple time domain calculation method to derive thermal response factors and c...
This paper presents a simple procedure for calculating the thermal response factors and conduction t...
A new cooling load calculation procedure, the transfer function method, has been incorporated in the...
An analytic solution for transient heat transfer in a composite wall subjected to explicit solar rad...
The object of this investigation was to examine the transient heat flow through a composite wall. Th...
The object of this investigation was to examine the transient heat flow through a composite wall. Th...
An analytical solution is presented for the transient, non-periodic, one-dimensional, non-homogeneou...
Two methods of calculating the periodic heat flow through solid walls of roofs are described. The ma...
A new technique for dealing with the problem of the numerical simulation of heat conduction in solid...