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    • 3. 发明公开
    • SOLAR THERMAL AND BIGCC-INTEGRATED HYBRID POWER GENERATION SYSTEM
    • 混合物混合物混合物
    • EP3130779A1
    • 2017-02-15
    • EP15777535.4
    • 2015-02-06
    • Wuhan Kaidi Engineering Technology Research Institute Co., Ltd.
    • CHEN, YilongZHANG, YanfengTANG, HongmingLIU, Wenyan
    • F02C6/00F03G6/02F01K27/00
    • F02C3/28F01D15/10F01K3/18F01K7/18F01K27/00F02C3/04F03G6/02F05D2210/12F05D2220/76F22B1/006F22B1/1815H02K7/1823Y02E10/46Y02E20/14Y02E20/18Y02E50/12
    • A solar thermal and BIGCC-integrated hybrid power generation system comprising a solar energy concentrating collector system (9), biomass gasification equipment (1), a gas-fired electric generator (7), a steam turbine (13), and a steam electric generator (14). The solar energy concentrating collector system (9) is connected to a solar energy heat exchange system (11). The biomass gasification equipment (1) is connected to the gas-fired electric generator (7) via a gas compressor (3), a combustion chamber (5), and a gas turbine (6). An output of the gas turbine (6) is simultaneously connected to a gas residual heat system (8). A low-pressure steam output of the gas residual system (8) is connected to a medium/low-pressure cylinder of the steam turbine (13). A high-pressure steam output of the gas residual system (8) and high-pressure steam produced by the solar energy heat exchange system (11) are both connected to a steam mixture regulating system (12). An output of the steam mixture regulating system (12) is connected to a high-pressure cylinder of the steam turbine (13). By means of the steam mixture regulating system, mixture of steams of different temperatures is implemented, and the temperature of the mixed steam is regulated and controlled, thus satisfying steam requirements of a variable parameter steam turbine.
    • 一种太阳能热和BIGCC集成混合动力发电系统,包括太阳能集中收集系统(9),生物质气化设备(1),燃气发电机(7),汽轮机(13)和蒸汽电 发电机(14)。 太阳能集热系统(9)连接到太阳能热交换系统(11)。 生物质气化装置(1)通过气体压缩机(3),燃烧室(5)和燃气轮机(6)与燃气发电机(7)连接。 燃气轮机(6)的输出同时连接到气体余热系统(8)。 气体残留系统(8)的低压蒸汽输出连接到蒸汽轮机(13)的中/低压缸。 气体残留系统(8)的高压蒸汽输出和由太阳能热交换系统(11)产生的高压蒸汽都连接到蒸汽混合调节系统(12)。 蒸汽混合调节系统(12)的输出端连接到蒸汽轮机(13)的高压气缸。 通过蒸汽混合调节系统,实现不同温度的蒸汽混合,调节和控制混合蒸汽的温度,从而满足可变参数蒸汽轮机的蒸汽要求。
    • 5. 发明公开
    • TURBOCHARGER WITH AN ANNULAR ROTARY BYPASS VALVE
    • TURBOLADER MITRINGFÖRMIGEMDREHUMLEITUNGSVENTIL
    • EP3045677A1
    • 2016-07-20
    • EP16155499.3
    • 2015-03-04
    • Honeywell International Inc.
    • LOMBARD, AlainBRIBANT, ValerieCOSTEUX, Antoine
    • F01D17/10F02B37/18
    • F02B37/183F01D17/105F02C6/12F05D2210/12F05D2220/40F05D2250/411F05D2270/05Y02T10/144
    • A turbocharger includes an annular bypass passage with an annular bypass valve (70) disposed therein. The bypass valve (70) includes a fixed annular valve seat (72) and a rotary annular valve member (74) disposed against the valve seat (72). The valve member (74) is rotatable about the axis for varying a degree of alignment between orifices (73, 75) in the valve seat (72) and valve member (74) so as to form flow passages having a flow area A for exhaust gas. The orifices are shaped to provide a first phase of evolution of the flow area A from zero up to a value A 1 and then a second phase of evolution from the value A 1 up to a value A 2 , and such that the first and second phases have distinctly different slopes on a curve of flow area versus rotational position of the valve member, with a distinct break point in the curve between the first and second phases.
    • 涡轮增压器包括环形旁路通道,其中设置有环形旁通阀(70)。 旁通阀(70)包括固定环形阀座(72)和抵靠阀座(72)设置的旋转环形阀构件(74)。 阀构件(74)可围绕轴线旋转以改变阀座(72)和阀构件(74)中的孔(73,75)之间的对准程度,以形成具有用于排气的流动面积A的流动通道 加油站。 孔被成形为提供流动区域A的从零到达值A 1的演化的第一阶段,然后是从值A 1到值A 2的第二阶段演化,并且使得第一和第二阶段 在相对于阀构件的旋转位置的流动面积曲线上的相位具有明显不同的斜率,在第一和第二相之间的曲线中具有明显的断点。
    • 10. 发明公开
    • TURBOCHARGER WITH AN ANNULAR ROTARY BYPASS VALVE
    • TURBOLADER MITRINGFÖRMIGEMDREHUMLEITUNGSVENTIL
    • EP2921653A1
    • 2015-09-23
    • EP15157651.9
    • 2015-03-04
    • Honeywell International Inc.
    • Lombard, AlainBribant, ValerieCosteux, Antoine
    • F01D17/10F02B37/18
    • F02B37/183F01D17/105F02C6/12F05D2210/12F05D2220/40F05D2250/411F05D2270/05Y02T10/144
    • A turbocharger includes an annular bypass passage with an annular bypass valve (70) disposed therein. The bypass valve includes a fixed annular valve seat (72) and a rotary annular valve member (74) disposed against the valve seat. The valve member (74) is rotatable about the axis for varying a degree of alignment between orifices (75) in the valve seat (72) and valve member (74) so as to form flow passages having a flow area A for exhaust gas. The orifices (75) are shaped to provide a first phase of evolution of the flow area A from zero up to a value A 1 and then a second phase of evolution from the value A 1 up to a value A 2 , and such that the first and second phases have distinctly different slopes on a curve of flow area versus rotational position of the valve member (74), with a distinct break point in the curve between the first and second phases.
    • 涡轮增压器包括环形旁路通道,其中设置有环形旁通阀(70)。 旁通阀包括固定环形阀座(72)和抵靠阀座设置的旋转环形阀构件(74)。 阀构件(74)能够围绕轴线旋转以改变阀座(72)和阀构件(74)中的孔口(75)之间的对准程度,从而形成具有排气流动面积A的流动通道。 孔75被成形为提供流动区域A的从第一到第二进化阶段的第一阶段,然后是从值A 1到值A 2的演化的第二阶段,并且使得 第一和第二相在流动面积对阀构件(74)的旋转位置的曲线上具有明显不同的斜率,在第一和第二相之间的曲线中具有明显的断点。