The present invention provides a fog dissipation device and a cooling tower, and relates to the technical field of cooling towers. The fog dissipation device comprises: a first flow path and a second flow path which are stacked to exchange heat between a first air flow and a second air flow flowing from bottom to top; a first outflow port through which the first air flow flowing out of the first flow path is discharged to the upper side of the fog dissipation device; and, a second outflow port through which the second air flow flowing out of the second flow path is discharged to the upper side of the fog dissipation device, wherein the first outflow port and the second outflow port are alternately stacked. The fog dissipation device can play a role in water-saving fog dissipation. The cooling tower comprises the fog dissipation device described above.

The present invention provides a fog dissipation device and a cooling tower, and relates to the technical field of cooling towers. The fog dissipation device comprises: a first flow path and a second flow path which are stacked to exchange heat between a first air flow and a second air flow flowing from bottom to top; a first outflow port through which the first air flow flowing out of the first flow path is discharged to the upper side of the fog dissipation device; and, a second outflow port through which the second air flow flowing out of the second flow path is discharged to the upper side of the fog dissipation device, wherein the first outflow port and the second outflow port are alternately stacked. The fog dissipation device can play a role in water-saving fog dissipation. The cooling tower comprises the fog dissipation device described above.

A louver assembly includes a blade array having a plurality of nested blades that are horizontally aligned, each of the plurality of blades being spaced apart from an adjacent blade by a plurality of spacers, each of the plurality of blades having a blade longitudinal axis, wherein each of the plurality of spacers is oriented at a non-orthogonal angle relative to the blade longitudinal axis.

A cooling tower having a controller installed within the cooling tower which controls the operation of pump motors, fans, dampers, valves and adjusts the speed of the fan and pump motor. The controller is placed inside a compartment which is attached to an inside surface of the cooling tower. The compartment has an inlet and an outlet such that conditioned air enters the compartment inlet and flows over the surface of the controller to either cool or heat the controller and then the conditioned air, which has flowed over the surface of the controller, exits the compartment through the compartment outlet.

A cooling tower having a controller installed within the cooling tower which controls the operation of pump motors, fans, dampers, valves and adjusts the speed of the fan and pump motor. The controller is placed inside a compartment which is attached to an inside surface of the cooling tower. The compartment has an inlet and an outlet such that conditioned air enters the compartment inlet and flows over the surface of the controller to either cool or heat the controller and then the conditioned air, which has flowed over the surface of the controller, exits the compartment through the compartment outlet.

The present invention relates to a cooling tower for cooling water, improved to evenly spray the cooling-water, wherein each component is manufactured in a modularized form and then each module is integrated and installed at an installation site to correspond to the scale of the cooling tower. The cooling tower includes a water tank, a filling material, a cooling-water circulation facility, an eliminator, and a fan, wherein, between the filling material and the water tank, an air intake port through which external air is introduced and a guide having a concave cross-sectional shape to guide the introduced air to the center using a pressure difference between the inside and the outside thereof are additionally provided so that cooling efficiency of the cooling-water can be improved and productivity of the cooling tower as well as convenience in transportation and installation can be maximized.

Improved water management systems which deflect or collect evaporative liquid exiting counterflow heat exchangers and improve airflow distribution are provided. Such heat exchangers include open cooling towers, closed circuit cooling towers, and evaporative condensers. The improved water management systems eliminate water splash out and the noise associated with water splashing. Further, when the fan assemblies are located below the evaporative heat exchanger, the improved water management systems keep the fans dry and prevent freezing in subzero climates.

Improved water management systems which deflect or collect evaporative liquid exiting counterflow heat exchangers and improve airflow distribution are provided. Such heat exchangers include open cooling towers, closed circuit cooling towers, and evaporative condensers. The improved water management systems eliminate water splash out and the noise associated with water splashing. Further, when the fan assemblies are located below the evaporative heat exchanger, the improved water management systems keep the fans dry and prevent freezing in subzero climates.

The present invention relates to a cooling tower for cooling water, improved to evenly spray the cooling-water, wherein each component is manufactured in a modularized form and then each module is integrated and installed at an installation site to correspond to the scale of the cooling tower. The cooling tower includes a water tank, a filling material, a cooling-water circulation facility, an eliminator, and a fan, wherein, between the filling material and the water tank, an air intake port through which external air is introduced and a guide having a concave cross-sectional shape to guide the introduced air to the center using a pressure difference between the inside and the outside thereof are additionally provided so that cooling efficiency of the cooling-water can be improved and productivity of the cooling tower as well as convenience in transportation and installation can be maximized.

A heat exchange system comprises vertical centermost plenum surrounded by the heat exchange coil and housed in a plurality of side panels and a base, the plurality of side panels have air intakes that communicate outside air into the cabinet above the heat exchange coil and sprayers, a stream of spray water and air is drawn downwardly over a heat exchange coil, a portion of the spray water is separated from the air by drawing the air inward to the plenum, the air is then drawn upwardly within the plenum to an exhaust external to the enclosure.