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    • 2. 发明授权
      US08523523B2 Cooling arrangements 有权
    • Cooling arrangements
    • 冷却装置
    • US08523523B2
    • 2013-09-03
    • US12787758
    • 2010-05-26
    • Roderick M. TownesIan TibbottEdwin DaneCaner H. Helvaci
    • Roderick M. TownesIan TibbottEdwin DaneCaner H. Helvaci
    • F01D5/08F01D5/20
    • F01D5/187F05D2250/11F05D2250/70F05D2260/2212F05D2260/22141
    • Providing cooling within hollow blades such as high pressure turbine blades in a gas turbine engine is important to maintain these components within operational margins for the materials from which they are formed. Traditionally, coolant flows in hollow passages have been used along with impingement apertures towards a leading passage for cooling effectiveness. It is known that opposed undulations or ribs can create rotational vortices within the passage. By shaping shaped portions between the opposed undulations and possibly providing undulations upon these shaped portions themselves it is possible to generate stronger more powerful vortices within the passage. These vortices are coupled with the impingement orifices to create proportionally greater impingement jet flow and pressure and therefore cooling effectiveness within the leading passage.
    • 在诸如燃气轮机发动机中的高压涡轮机叶片的中空叶片内提供冷却对于将这些部件保持在其形成的材料的操作边缘内是重要的。 传统上,在中空通道中的冷却剂流已经与冲击孔一起使用,朝向前导通道以降低冷却效果。 已知相对的起伏或肋可以在通道内产生旋转涡流。 通过在相对的波纹之间成形成形部分并且可能在这些成形部分本身上提供起伏,可以在通道内产生更强大的更强大的涡流。 这些涡流与冲击孔结合,以产生比例地更大的冲击射流和压力,从而在前导通道内产生冷却效果。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 4. 发明授权
      US07850428B2 Aerofoils 有权
    • Aerofoils
    • 机动航空
    • US07850428B2
    • 2010-12-14
    • US11707997
    • 2007-02-20
    • Ian TibbottEdwin Dane
    • Ian TibbottEdwin Dane
    • F01D5/08F01D5/18
    • F01D5/186F05D2240/12F05D2240/122F05D2240/304F05D2250/16F05D2250/71F05D2260/221
    • An aerofoil 20 for a gas turbine engine includes a root portion 22, a tip portion 24 located radially outwardly of the root portion 22, leading and trailing edges 26, 28 extending between the root portion 22 and the tip portion 24 and an internal cooling passage 34. The aerofoil 20 includes a plurality of cooling fluid discharge apertures 36 extending between the root portion 22 and the tip portion 24 in a trailing edge region 28a to discharge cooling fluid from the internal cooling passage 34 to an outer surface 31 of the aerofoil in the trailing edge region 28a and thereby provide a cooling film in the trailing edge region 28a. The cooling fluid discharge apertures 36 are arranged so that the flow rate of the cooling fluid discharged from the internal cooling passage 34 to the outer surface trailing edge region 28a varies between the root portion 22 and the tip portion 24.
    • 用于燃气涡轮发动机的机翼20包括根部22,位于根部22的径向外侧的前端部24,在根部22和顶端部24之间延伸的前缘26和后缘26以及内部冷却通道 机翼20包括在后缘区域28a中在根部22和尖端部分24之间延伸的多个冷却流体排放孔36,以将冷却流体从内部冷却通道34排出到机翼的外表面31 后缘区域28a,从而在后缘区域28a中提供冷却膜。 冷却流体排出孔36被布置成使得从内部冷却通道34排出到外表面后缘区域28a的冷却流体的流量在根部22和尖端部24之间变化。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 5. 发明申请
      US20100303635A1 COOLING ARRANGEMENTS 有权
    • COOLING ARRANGEMENTS
    • 冷却安排
    • US20100303635A1
    • 2010-12-02
    • US12787758
    • 2010-05-26
    • Roderick M. TOWNESIan TibbottEdwin DaneCaner H. Helvaci
    • Roderick M. TOWNESIan TibbottEdwin DaneCaner H. Helvaci
    • F01D5/18
    • F01D5/187F05D2250/11F05D2250/70F05D2260/2212F05D2260/22141
    • Providing cooling within hollow blades such as high pressure turbine blades in a gas turbine engine is important to maintain these components within operational margins for the materials from which they are formed. Traditionally, coolant flows in hollow passages have been used along with impingement apertures towards a leading passage for cooling effectiveness. It is known that opposed undulations or ribs can create rotational vortices within the passage. By shaping shaped portions between the opposed undulations and possibly providing undulations upon these shaped portions themselves it is possible to generate stronger more powerful vortices within the passage. These vortices are coupled with the impingement orifices to create proportionally greater impingement jet flow and pressure and therefore cooling effectiveness within the leading passage.
    • 在诸如燃气轮机发动机中的高压涡轮机叶片的中空叶片内提供冷却对于将这些部件保持在其形成的材料的操作边缘内是重要的。 传统上,在中空通道中的冷却剂流已经与冲击孔一起使用,朝向前导通道以降低冷却效果。 已知相对的起伏或肋可以在通道内产生旋转涡流。 通过在相对的波纹之间成形成形部分并且可能在这些成形部分本身上提供起伏,可以在通道内产生更强大的更强大的涡流。 这些涡流与冲击孔结合,以产生比例地更大的冲击射流和压力,从而在前导通道内产生冷却效果。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 6. 发明申请
      US20070253815A1 Cooled gas turbine aerofoil 有权
    • Cooled gas turbine aerofoil
    • 冷气涡轮机翼
    • US20070253815A1
    • 2007-11-01
    • US11207892
    • 2005-08-22
    • Michiel KopmelsIan TibbottEdwin DaneMark Mitchell
    • Michiel KopmelsIan TibbottEdwin DaneMark Mitchell
    • F01D5/18
    • F01D5/188F01D5/18F01D5/186F01D5/20F01D5/225Y02T50/676
    • An internal fluid cooling system for a gas turbine aerofoil (2) comprises a plurality of multi-pass cooling arrangements each of which consists of a serpentine passage (50,52,54 & 48,56,58) in the interior of the aerofoil (2). The cooling fluid—in particular air—is supplied to an inlet end (22,24) of each passage (50,52,54 & 48,56,58) and exhausted through a multiplicity of discharge holes (60,62,64,68) to provide tip, leading edge, trailing edge and surface film cooling. The inlet end (22) of a first serpentine passage (50,52,54) is positioned close to the leading edge (26) and flows rearwards while the inlet end (24) of the second serpentine passage (48,56,58) is positioned close to the trailing edge (28) and flows forwards. These serpentine passages are disposed side-by-side, one adjacent the pressure surface (14) and the other adjacent the suction surface (16) on opposite sides of a main load carrying member (30) which comprises a major part of the internal structure (30,36,38,40,42,44) of the aerofoil (2).
    • 用于燃气轮机机翼(2)的内部流体冷却系统包括多个多通道冷却装置,每个多通道冷却装置由机翼内部的蛇形通道(50,52,54和48,56,58) 2)。 冷却流体 - 特别是空气 - 被供应到每个通道(50,52,54和48,56,58)的入口端(22,24),并通过多个排放孔(60,62,64, 68)提供尖端,前缘,后缘和表面膜冷却。 第一蛇形通道(50,52,54)的入口端(22)定位成靠近前缘(26)并向后流动,同时第二蛇形通道(48,56,58)的入口端(24) 定位成靠近后缘(28)并向前流动。 这些蛇形通道并排设置,一个邻近压力表面(14),另一个邻近主负载承载构件(30)的相对侧的吸附表面(16),该主负载承载构件(30)包括内部结构的主要部分 (30,36,38,40,42,44)的机翼(2)。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 7. 发明申请
      US20100047078A1 Blade 有权
    • Blade
    • US20100047078A1
    • 2010-02-25
    • US12458412
    • 2009-07-10
    • Roderick M. TownesIan TibbottEdwin Dane
    • Roderick M. TownesIan TibbottEdwin Dane
    • F01D5/18
    • F01D5/186F01D5/187Y02T50/676
    • Cooling arrangements have been provided for blades and in particular turbine blades utilising gas turbine engines. Generally for internal strength a leading passage has been separate by a solid wall from a feed passage as impingement apertures may diminish structural strength as centres for stress concentration. However, impingement apertures allow impingement jets which have improved cooling efficiency. By providing a leading passage which is divided at least into a lower section and an upper section the lower section can have a wall which is solid for structural integrity whilst an upper section has impingement apertures for greater cooling efficiency.
    • 已经为叶片,特别是利用燃气涡轮发动机的涡轮叶片提供了冷却装置。 通常,对于内部强度,引导通道由进料通道的实心壁分离,因为冲击孔可能会减小作为应力集中中心的结构强度。 然而,冲击孔允许具有改善的冷却效率的冲击射流。 通过提供至少分成下部和上部的引导通道,下部可以具有用于结构完整性的实心的壁,而上部具有用于更高冷却效率的冲击孔。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
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