The humidified oxidizing air makes the dew point of flue gas increased, making it possible for the return water to recover more
latent heat. The flue gas is ultimately discharged into the atmosphere with a relative humidity of 56% and the thermal efficiency of the system reaches 101.4%, which is much higher than that of the condensing boilers.
4 was used to calculate the
latent heat of vaporization of the seed water at each temperature studied.
"Numerical and Experimental Investigation of a Fixed Bed
Latent Heat Storage System during Charging Processes." Australian Journal of Mechanical Engineering.
At this point, [q.sub.n] is close to zero, or zero for [T.sub.c] = [T.sub.room] (black solid curve), until the
latent heat storage capacity becomes full.
As evapotranspiration is one of the key factors that has a major impact on the hydrological cycle and the evapotranspiration from canopy interception is nearly 10-30% of total precipitation [40, 41], it is reasonable to consider the effect of evapotranspiration on
latent heat flux bias.
A field experiment was carried out in 3 different naturally ventilated agricultural structures, two screenhouses, and a greenhouse to study the suitability of a simple turbulent transport technique, namely, the flux variance, in estimating sensible and
latent heat fluxes.
The change of
latent heat is also affected by other factors such as inlet air humidity, water flow rate, heat exchanger orientation and heat exchanger geometry.
Dry air infiltrates a storm, dispels
latent heat through absorption and increases atmospheric stability.
Latent heat storage in a Phase Change Material (PCM) is very much impressive because of its high storage density with small temperature fluctuate.