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    • 2. 发明授权
    • Submerged gas evaporators and reactors
    • 淹没气体蒸发器和反应堆
    • US07416172B2
    • 2008-08-26
    • US11186459
    • 2005-07-21
    • Bernard F. Duesel, Jr.John P. GibbonsMichael J. Rutsch
    • Bernard F. Duesel, Jr.John P. GibbonsMichael J. Rutsch
    • B01F3/04
    • B01D1/14B01F3/04248B01F15/00883B01J19/2405B01J2219/00135B01J2219/00166B01J2219/00768B01J2219/00777
    • A submerged gas processor in the form of an evaporator or a submerged gas reactor includes a vessel, a gas delivery tube partially disposed within the vessel to deliver a gas into the vessel and a process fluid inlet that provides a process fluid to the vessel at a rate sufficient to maintain a controlled constant level of fluid within the vessel. A weir is disposed within the vessel adjacent the gas delivery tube to form a first fluid circulation path between a first weir end and a wall of the vessel and a second fluid circulation path between a second weir end and an upper end of the vessel. During operation, gas introduced through the tube mixes with the process fluid and the combined gas and fluid flow at a high rate with a high degree of turbulence along the first and second circulation paths defined around the weir, thereby promoting vigorous mixing and intimate contact between the gas and the process fluid. This turbulent flow develops a significant amount of interfacial surface area between the gas and the process fluid resulting in a reduction of the required residence time of the gas within the process fluid to; achieve thermal equilibrium and/or to drive chemical reactions to completion, all of which leads to a more efficient and complete evaporation, chemical reaction, or combined evaporation and chemical reaction process.
    • 蒸发器或浸没式气体反应器形式的浸没式气体处理器包括容器,部分地设置在容器内的气体输送管,以将气体输送到容器中;以及工艺流体入口,其在一个 速率足以在容器内维持受控的恒定水平的流体。 堰被设置在邻近气体输送管的容器内,以在第一堰端和容器的壁之间形成第一流体循环路径,以及在第二堰端和容器的上端之间的第二流体循环路径。 在操作过程中,通过管道引入的气体沿着沿堰周围限定的第一和第二循环路径以高速率高速湍流混合过程流体和组合的气体和流体流,从而促进了湍流之间的剧烈混合和紧密接触 气体和过程流体。 这种湍流在气体和过程流体之间产生显着量的界面表面积,导致气体在工艺流体中所需的停留时间减少,以实现热平衡和/或驱使化学反应完成, 这导致更有效和完全的蒸发,化学反应或组合的蒸发和化学反应过程。
    • 3. 发明申请
    • COOLING TOWER
    • 冷却塔
    • US20120318009A1
    • 2012-12-20
    • US13423941
    • 2012-03-19
    • Bernard F. Duesel, JR.Michael J. Rutsch
    • Bernard F. Duesel, JR.Michael J. Rutsch
    • F28C1/00
    • F28C3/06B01D1/0058B01D1/14B01D1/305C02F1/10
    • A cooling tower includes an evaporator vessel, a gas delivery tube partially disposed within the evaporator vessel and a liquid inlet that provides liquid to the evaporator vessel. A weir is disposed within the evaporator vessel adjacent the gas delivery tube to form a first liquid circulation path between a first weir end and a wall of the evaporator vessel and a second fluid circulation path between a second weir end and another wall of the evaporator vessel. During operation, gas introduced through the tube mixes with the liquid and the combined gas and liquid flow at a high rate with a high degree of turbulence along the first and second circulation paths defined around the weir, thereby promoting vigorous mixing and intimate contact between the gas and the liquid. This turbulent flow leads to a more efficient and complete heat and mass transfer between the gas and the liquid.
    • 冷却塔包括蒸发器容器,部分地设置在蒸发器容器内的气体输送管和向蒸发器容器提供液体的液体入口。 堰被设置在与气体输送管相邻的蒸发器容器内,以在蒸发器容器的第一堰端和壁之间形成第一液体循环路径,并且在第二堰端与蒸发器容器的另一个壁之间形成第二流体循环路径 。 在操作过程中,通过管引入的气体沿着围绕堰的第一和第二循环路径以高速率与高度的湍流高速混合液体和组合的气体和液体流,从而促进了湍流之间的剧烈混合和紧密接触 气体和液体。 这种湍流导致气体和液体之间更有效和完整的热和质量传递。