公开(公告)号：US20100176596A1

公开(公告)日：2010-07-15

申请号：US12657070

申请日：2010-01-13

申请人： Eduardo J. Peralta

发明人： Eduardo J. Peralta

IPC分类号： F03B13/22 ,  H02K44/12

CPC分类号： F03B13/14 ,  F03B17/00 ,  H02K44/085 ,  Y02B10/30 ,  Y02E10/20 ,  Y02E10/38

摘要： Inverse magneto hydrodynamics is employed to exploit natural movement of ocean water at coastal facilities using arrays of tubes to channel the water through orthogonal magnetic fields to generate DC voltage. Each such tube houses a plurality of serially arranged hydro-voltaic cells to produce electrical energy without mechanical movement. The tubes are preferably arranged to produce improved land use efficiency as compared to other known renewable energy generating systems such as photo-voltaic and wind turbines. A pumped salt water version is also disclosed.

摘要翻译： 采用逆磁流体动力学来利用沿海设施的海水的自然运动，使用管阵列将水通过正交磁场产生直流电压。 每个这样的管容纳多个串联布置的水电池，以在没有机械运动的情况下产生电能。 与其它已知的可再生能源发电系统（例如光电和风力涡轮机）相比，这些管优选地布置成产生改善的土地利用效率。 还公开了一种抽水盐水版本。

公开(公告)号：US4224512A

公开(公告)日：1980-09-23

申请号：US3691

申请日：1979-01-15

申请人： Eduardo J. Peralta

发明人： Eduardo J. Peralta

IPC分类号： G01J5/10 ,  H01P5/16 ,  H01J40/14

CPC分类号： G01J5/10 ,  H01P5/16

摘要： A highly sensitive non-refrigerated sensor configured in a microwave bridge to receive incident radiation from a remote target or source. A test arm of the microwave bridge has an aperture for receiving the incident radiation and for allowing that radiation to enter the test arm. A photoconductive film is mounted within the test arm to receive a defocused image of the target. The effect of the incident radiation illuminating the photoconductive film is to change its conductivity characteristics and simultaneously change the reflectance/transmittance characteristics within the test arm of the microwave bridge. An RF detector senses the imbalance of the bridge and produces an output which is used to either indicate the strength of the received incident radiation or to feedback information to a reference arm of the bridge. The feedback information is used to adjust the phase and amplitude of the microwave energy in the reference arm and rebalance the bridge.

摘要翻译： 配置在微波桥中以接收来自远程目标或源的入射辐射的高灵敏度非冷藏传感器。 微波桥的测试臂具有用于接收入射辐射并允许该辐射进入测试臂的孔。 光电导膜被安装在测试臂内以接收目标物的散焦图像。 照射光电导膜的入射辐射的影响是改变其导电特性并同时改变微波桥的测试臂内的反射/透射特性。 RF检测器检测桥的不平衡并产生用于指示接收到的入射辐射的强度或将信息反馈到桥的参考臂的输出。 反馈信息用于调整参考臂中微波能量的相位和幅度，并重新平衡电桥。

公开(公告)号：US07303581B2

公开(公告)日：2007-12-04

申请号：US11218950

申请日：2005-09-02

申请人： Eduardo J. Peralta

发明人： Eduardo J. Peralta

IPC分类号： A61M1/10

CPC分类号： A61M1/10 ,  A61M1/1008 ,  A61M1/1055 ,  A61M1/12 ,  A61M1/127 ,  A61M2205/8243

摘要： An implantable artificial heart apparatus which has no moving parts. It employs the technology of magnetohydrodynamics (MHD) to induce flow of human blood. An MHD propulsion unit is a device which applies magnetic and electric fields to blood to propel the conductive fluid through the body's circulatory system. Electricity is passed through the blood via electrodes at the same junction where the blood is exposed to the magnetic field. Charged ions that move from anode to cathode create their own corresponding magnetic fields which are either attracted or repelled by the externally applied magnetic field. The result is propulsion in a uniform direction with the moving ions, in effect, dragging fluid molecules with them. A single MHD propulsion unit performs the combined functions of the atrium and the ventricle of the human heart. Two MHD propulsion units are required to perform the full cardiac cycle of the heart, one to pump unoxygenated blood through the lungs and one to pump oxygenated blood through the body's circulatory system.

摘要翻译： 一种无移动部件的可植入人造心脏器械。 它采用磁流体力学技术（MHD）来诱导人体血液流动。 MHD推进装置是将磁场和电场施加于血液以推动导电流体通过身体的循环系统的装置。 电流通过血液通过电极在血液暴露于磁场的同一交界处通过。 从阳极向阴极移动的带电离子产生它们自己的相应的磁场，这些磁场被外部施加的磁场吸引或排斥。 结果是与移动的离子在均匀方向上的推进，实际上是与它们拖动流体分子。 单个MHD推进单元执行心脏的心房和心室的组合功能。 需要两个MHD推进装置来完成心脏的全心脏循环，一个用于泵送未经氧化的血液通过肺部，另一个用于泵送氧合血液通过身体的循环系统。

公开(公告)号：US07919878B2

公开(公告)日：2011-04-05

申请号：US12657070

申请日：2010-01-13

申请人： Eduardo J. Peralta

发明人： Eduardo J. Peralta

IPC分类号： B60L11/02

CPC分类号： F03B13/14 ,  F03B17/00 ,  H02K44/085 ,  Y02B10/30 ,  Y02E10/20 ,  Y02E10/38

摘要： Inverse magneto hydrodynamics is employed to exploit natural movement of ocean water at coastal facilities using arrays of tubes to channel the water through orthogonal magnetic fields to generate DC voltage. Each such tube houses a plurality of serially arranged hydro-voltaic cells to produce electrical energy without mechanical movement. The tubes are preferably arranged to produce improved land use efficiency as compared to other known renewable energy generating systems such as photo-voltaic and wind turbines. A pumped salt water version is also disclosed.

摘要翻译： 采用逆磁流体动力学来利用沿海设施的海水的自然运动，使用管阵列将水通过正交磁场产生直流电压。 每个这样的管容纳多个串联布置的水电池，以在没有机械运动的情况下产生电能。 与其它已知的可再生能源发电系统（例如光电和风力涡轮机）相比，这些管优选地布置成产生改善的土地利用效率。 还公开了一种抽水盐水版本。

公开(公告)号：US4562439A

公开(公告)日：1985-12-31

申请号：US449102

申请日：1982-12-13

申请人： Eduardo J. Peralta ,  Kay M. Reitz

发明人： Eduardo J. Peralta ,  Kay M. Reitz

IPC分类号： G01S13/24 ,  G01S13/89 ,  G01S7/28

CPC分类号： G01S13/89 ,  G01S13/24

摘要： An imaging radar seeker (8) for producing two-dimensional images of a target (2) is mounted on a missile (6) or other moving body, such as an automobile. A computer (40) directs the seeker (8) to operate sequentially in searching, tracking, and imaging modes. In the searching mode, a combination of circumferential rotation of antenna (12) of seeker (8) and frequency scanning of electromagnetic energy fed to antenna (12) enables seeker (8) to search for its target (2) over a conical field-of-view (16) or a wider, peripheral belt field-of-view (16). In the imaging mode, circumferential rotation of antenna (12) is stopped, and the tilt angle (A) of the linear array (32) of antenna (12) is stepped or continuously moved to compensate for radial movement of the radiated beam (14) caused by frequency stepping imparted by a frequency synthesizer (20). This keeps the beam (14) fixed in space and centered on target (2). Inverse synthetic aperture imaging is used to create a two-dimensional image (4) of target (2) wherein the first dimension (range) is obtained by performing inverse Fourier transforms on the echo signals, and the second orthogonal dimension (cross-range or doppler frequency) is obtained by performing Fourier transforms. Array (32) can be a linear array of E-plane stacked linear waveguide antenna elements (38) operating in either the traveling wave mode or the standing wave mode.

摘要翻译： 用于产生目标（2）的二维图像的成像雷达探测器（8）安装在诸如汽车的导弹（6）或其它移动体上。 计算机（40）引导寻找器（8）在搜索，跟踪和成像模式中依次操作。 在搜索模式中，引导器（8）的天线（12）的圆周旋转和馈送到天线（12）的电磁能的频率扫描的组合使得寻轨器（8）能够在锥形场 - （16）或更宽的外围皮带视野（16）。 在成像模式中，天线（12）的周向旋转停止，天线（12）的直线阵列（32）的倾斜角（A）被阶梯状或连续移动以补偿辐射束（14）的径向运动 ）由频率合成器（20）赋予的频率步长引起。 这样就可以将光束（14）固定在空间中并以目标（2）为中心。 反向合成孔径成像用于创建目标（2）的二维图像（4），其中第一维度（范围）是通过对回波信号进行逆傅里叶变换而得到的，第二维度（范围） 多普勒频率）通过执行傅里叶变换获得。 阵列（32）可以是以行波模式或驻波模式工作的E平面堆叠线性波导天线元件（38）的线性阵列。