High performance ceramic (HPC) cooling tower fill plates with scalloped top and bottom edges and cross-hatched veins are used in combination with improved retainers in order to produce high performance, cooling tower fill bundles.

A cooling tower includes at least one cooling fan, a cooling tower fan, at least one indirect heat exchanger, a heat exchanger coil and a direct heat exchanger. All inner surfaces of the cooling tower, except for the indirect heat exchanger, are made from and/or include a non-porous material. The non-porous material is high-density polyethylene. The cooling tower is part of an indirect-direct evaporative cooling system and supplies cool air to a building structure or areas that desire cooling.

The present disclosure relates to a cooling tower. The cooling tower includes a fill media, a water distribution system to distribute water to the fill media, a basin to collect the water, and a shield disposed within the tower.

The present microbubble generator is a microbubble generator for generating microbubbles in a liquid, including a straight pipe made of porous ceramics, having one end connected to a compressor and the other end blocked, and the straight pipe having an average pore diameter of 1.5 m or less.

In various embodiments, the present invention relates to heat dissipation systems including a hygroscopic working fluid integrating waste water as makeup water. The present invention also relates to methods of using the same. The present invention also relates to hygroscopic cooling systems adapted to dispose of waste water by combining the waste water with a hygroscopic working fluid, precipitating impurities and evaporating the remaining water.

In various embodiments, the present invention relates to heat dissipation systems including a hygroscopic working fluid integrating waste water as makeup water. The present invention also relates to methods of using the same. The present invention also relates to hygroscopic cooling systems adapted to dispose of waste water by combining the waste water with a hygroscopic working fluid, precipitating impurities and evaporating the remaining water.

In various embodiments, the present invention relates to heat dissipation systems including a hygroscopic working fluid integrating waste water as makeup water. The present invention also relates to methods of using the same. The present invention also relates to hygroscopic cooling systems adapted to dispose of waste water by combining the waste water with a hygroscopic working fluid, precipitating impurities and evaporating the remaining water.

In various embodiments, the present invention relates to heat dissipation systems including a hygroscopic working fluid integrating waste water as makeup water. The present invention also relates to methods of using the same. The present invention also relates to hygroscopic cooling systems adapted to dispose of waste water by combining the waste water with a hygroscopic working fluid, precipitating impurities and evaporating the remaining water.

A cooling tower includes a tower casing, a pumping device, a water storage tank, at least one cooling assembly and a fan unit. The cooling assembly includes a first multiple-layer cooling unit comprising a first water collection basin, a first fill material unit provided underneath the first water collection basin, and a first water receiving basin provided underneath the first fill material unit and connected to the water storage tank. The second multiple-layer cooling unit includes a second water collection basin connected to the water storage tank, and a second fill material unit provided underneath the second water collection basin. The cooling water in the second water collection basin is arranged to be distributed on the second fill material unit. The water flowing in the second water collection basin is collected in the water storage tank.

A cooling tower includes a tower casing, a pumping device, a water storage tank, at least one cooling assembly and a fan unit. The cooling assembly includes a first multiple-layer cooling unit comprising a first water collection basin, a first fill material unit provided underneath the first water collection basin, and a first water receiving basin provided underneath the first fill material unit and connected to the water storage tank. The second multiple-layer cooling unit includes a second water collection basin connected to the water storage tank, and a second fill material unit provided underneath the second water collection basin. The cooling water in the second water collection basin is arranged to be distributed on the second fill material unit. The water flowing in the second water collection basin is collected in the water storage tank.