A　new　type　of　dehydration　unit　for　natural　gas　is　described　and　its　basic　structure　and　working　principles　are　presented.　The　key　factors　affecting　the　performance　and　dehydration　efficiency　of　the　unit　such　as　nucleation　rate,　droplet　growth　rate,　the　strength　of　the　swirl,　and　the　position　at　which　the　shock　wave　occurs　are　discussed.　And　accordingly　the　design　considerations　of　each　component　of　the　unit　are　provided.　Experimental　investigations　on　the　working　performance　of　the　unit　justified　the　design　considerations.