With regards to the latent heat during the molten steel solidification,the way of equivalent specific heat was applied.

The authors analyze the disadvantages and limitations of the equivalent specific heat method used widely so far in numerical calculations for solidification of castings, and propose a modified equivalent specific heat method and an iterative method for heat source.

Calculation of supply air volume by equivalent sensible heat ratio;

Finite element solution of heat transfer with planar phase change by equivalent heat capacity method;

The processing method for latent heat releases in alloy castings is introduced by the combination of the temperature recovery and the equivalent heat capacity, which can be applied in alloy solidification of any temperature range with the high efficiency.

Combining with the requirement of unit energy-saving reformation,based on the theory of equivalent enthalpy drop method,the influence of temperature difference between heater terminals and steam extraction pressure loss on the thermal efficiency of the regenerative heating system of an introduced 300 MW unit was analyzed quantitatively.

Then,based on the improved ideal cycle thermal efficiency,equivalent enthalpy drop method is improved,and the ideal equivalent enthalpy drop method is proposed.

A new viewpoint, to apply the equivalent specific heat method on pure metal, eutectic alloys and alloys with narrow solidification range, is put forward with considerations of all possible aspects for emending the temperature down through the solidification range.