| 摘要 |
<p>#CMT# #/CMT# An airflow is created and circulated through exchanger element for pre-cooling, with or without the initiation of the water-vapor phase change. The pre-cooled airflow is cooled to a temperature lower than the dew point for generating water-vapor phase change or to continue phase change when it has already commenced during pre-cooling. The condensed and/or frozen water is collected, and discharge airflow is re-circulated. #CMT# : #/CMT# An airflow is created and circulated through the secondary of an exchanger element for pre-cooling, with or without the initiation of the water-vapor phase change. The pre-cooled airflow is cooled to a temperature lower than the dew point for generating water-vapor phase change or to continue phase change when it has already commenced during pre-cooling. The condensed and/or frozen water is collected, and the desiccated, cooled discharge airflow is re-circulated through the primary of the exchanger for using the residual cold for pre-cooling. An independent claim is included for machine for obtaining water by condensing moisture from air mass. #CMT#USE : #/CMT# For obtaining water from atmospheric air mass. #CMT#ADVANTAGE : #/CMT# The method enables re-circulation of desiccated, cooled discharge airflow for using the residual cold for pre-cooling. #CMT#DESCRIPTION OF DRAWINGS : #/CMT# The figure shows the explanatory drawing of the method for obtaining water from atmospheric air mass.</p> |
