A liquid collection assembly positionable between a fill material and a fan of a cooling tower for collecting liquid gravitating through the fill material while allowing air to pass up to the fill material. The liquid collection assembly includes a plurality of trough assemblies supported in a spaced apart, vertically overlapping relationship to provide a uniform path for rising air, to capture the down flowing liquid, to provide a barrier between the liquid distribution system and the fan, and to carry the liquid into the at least one gutter. The trough assemblies are supported by a first end plate and a second end plate through which trough assemblies extend.

A method and device are provided for purifying and recycling water vapor from a coal drying process. Included are a temperature-lowering and dehumidifying process, a flash distillation stripping process, and a vacuum condensing process. A condensing tower receives a temperature-lowered exhaust gas with high humidity from a cooling tube and a condensed water of 5˜60° C. from a flash distillation tank, allowing the exhaust gas and the condensed water to contact each other in a vapor-liquid reverse manner, to lower the temperature and dehumidify the exhaust gas. The flash distillation tank performs a vacuum flash distillation to the condensing water pumped therein from the condensing tower. Water vapor of 5˜60° C. evaporated through flash distillation in the flash distillation tank enters into the demisting washer to be dehumidified and then is condensed. The condensed water in the vapor condenser is transferred into a recycled water tank. Non-condensable gas is discharged out.

A method and device are provided for purifying and recycling water vapor from a coal drying process. Included are a temperature-lowering and dehumidifying process, a flash distillation stripping process, and a vacuum condensing process. A condensing tower receives a temperature-lowered exhaust gas with high humidity from a cooling tube and a condensed water of 5˜60° C. from a flash distillation tank, allowing the exhaust gas and the condensed water to contact each other in a vapor-liquid reverse manner, to lower the temperature and dehumidify the exhaust gas. The flash distillation tank performs a vacuum flash distillation to the condensing water pumped therein from the condensing tower. Water vapor of 5˜60° C. evaporated through flash distillation in the flash distillation tank enters into the demisting washer to be dehumidified and then is condensed. The condensed water in the vapor condenser is transferred into a recycled water tank. Non-condensable gas is discharged out.

The present invention comprises: a casing forming an air supply area, an exhaust area, and a heat exchanger area; an air supply port communicating with the air supply area and formed in the casing; an exhaust port communicating with the exhaust area and formed in the casing; a heat exchanger disposed in the heat exchange area; and a blowing power generation unit that provides flow force to the air supply area and the exhaust area and generates electricity by means of external force, wherein the blowing power generation unit comprises: a blowing fan; a rotary shaft having a first coupling part and a second coupling part to which the blowing fan is coupled; and a generator motor that rotates the rotary shaft or generates electricity by rotation of the rotary shaft.

A single inlet/single outlet modular counterflow cooling tower having two heat transfer sections installed atop two cold water basin sections and below three fan sections, each heat transfer section having its own water distribution system and draining into its own distinct cold water basin section. The water distribution system can provide flow over both heat transfer sections or over only a single section. The center fan support section supports the mechanical drive system for the fan and has a sealing plate at its bottom for sealing the gap between the two heat transfer sections.

A single inlet/single outlet modular counterflow cooling tower having two heat transfer sections installed atop two cold water basin sections and below three fan sections, each heat transfer section having its own water distribution system and draining into its own distinct cold water basin section. The water distribution system can provide flow over both heat transfer sections or over only a single section. The center fan support section supports the mechanical drive system for the fan and has a sealing plate at its bottom for sealing the gap between the two heat transfer sections.

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.

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.

The invented system used in wet cooling tower, restore outlet fog of cooling tower into collection basin and consequently cooling water cycle. This invention consists of three main components; pump and its pertaining piping, waterfall and micron fog eliminator. In the first stage, the air containing fog is passed through a waterfall before exhausting. This action causes some portions of fog to condensate and fall down, remaining droplets of the fog grow and together with air cross the fog eliminator blades. Fog's droplets are entrapped between blades, leave the air, and restore to the tower. Therefore, humidity of exhausted air from tower will be effectively reduced.

The invented system used in wet cooling tower, restore outlet fog of cooling tower into collection basin and consequently cooling water cycle. This invention consists of three main components; pump and its pertaining piping, waterfall and micron fog eliminator. In the first stage, the air containing fog is passed through a waterfall before exhausting. This action causes some portions of fog to condensate and fall down, remaining droplets of the fog grow and together with air cross the fog eliminator blades. Fog's droplets are entrapped between blades, leave the air, and restore to the tower. Therefore, humidity of exhausted air from tower will be effectively reduced.