Thermal conditions of Adsorptive heat storage device operating in open-mode for  heating inflowing air

Elena Belyanovskaya, Roman Lytovchenko, Kostyantyn Mikhaylovich Sukhyy, Yana Oleksandrivna Serhiienko, Mikhaylo Porfyryevich Sukhyy, Irina Valeriivna Sukha

Thermal conditions of Adsorptive heat storage device operating in open-mode for heating inflowing air

Дата

2021

Автори

Elena Belyanovskaya, Roman Lytovchenko, Kostyantyn Mikhaylovich Sukhyy, Yana Oleksandrivna Serhiienko, Mikhaylo Porfyryevich Sukhyy, Irina Valeriivna Sukha

Анотація

Thermal conditions of adsorptive heat storage device operating in open-mode were considered when discharged. The main operating parameters affecting the final temperature of airflow which supplied to ventilated premises are determined on the example of heat storage device based on composite ‘silica gel – sodium sulphate’. The main factors which determine a final airflow temperature are confirmed to be initial values of temperature, absolute humidity and speed of airflow which fanned to the adsorbent layer. Algorithm of calculating the operational parameters of adsorptive heat storage device has been further developed. Proposed algorithm involves calculation of diffusion coefficient, mass transfer coefficient, final absolute humidity of airflow, volume of air which passed through adsorbent layer, adsorption, specific adsorption heat and final airflow temperature, then useful heat, heat inputs for operating heat storage device and its efficiency factor are estimated. The adequacy of the proposed algorithm has been confirmed according with experimental data for operating of open mode adsorptive heat storage device. Curves final temperature of inflowing air vs. time of discharge of heat storage device are stated to depend on characteristics of airflow which fanned to the adsorbent layer such as temperature, speed and initial absolute humidity. When these parameters increased, time to achieve plateau, i.e. maximal values of final inflowing air temperature decrease. The dependence of initial values of temperature, absolute humidity, speed of humid airflow and final airflow temperature is shown. Maximal temperatures of at most 65 – 80 ºC are stated at the initial temperatures and absolute humidity of initial airflow within the ranges of 20 – 30 ºC and 0.03 – 0.04 kg/m3, respectively. The results of the present study can be used for the development of energy-efficient systems and devices for air-conditioning in habitual inner space and warehouses.