公开(公告)号：US20140008356A1

公开(公告)日：2014-01-09

申请号：US14006567

申请日：2011-11-02

申请人： Naoki Uchida ,  Keiji Kawanaka ,  Takahiro Ao

发明人： Naoki Uchida ,  Keiji Kawanaka ,  Takahiro Ao

IPC分类号： H05B6/02

CPC分类号： H05B6/02 ,  H05B6/06 ,  H05B6/101

摘要： The present invention includes: a plurality of induction heating coils (11, 12, 13) which are disposed adjacently; capacitors (21, 22, 23) each of which is connected in series thereto; a plurality of inverters (30, 35, 31) each of which applies a high frequency voltage converted from a DC voltage to each series resonant circuit of the induction heating coil and the capacitor; and a control circuit (50) which operates the plurality of the inverters with a same frequency and current synchronization, controls so that a phase difference becomes minimal at a specific inverter, which supplies the maximum power to the plurality of the induction heating coils, between the high frequency voltage generated therefrom, and a resonant current flowing the series resonant circuit, and set a DC power supply voltage Vdc applied to the plurality of the inverters so that the output voltages (Vinv) become greater than mutual induction voltages (Vm).

摘要翻译： 本发明包括：相邻设置的多个感应加热线圈（11,12,13）; 电容器（21,22,23），每个电容器串联连接; 多个逆变器（30,35,31），其将从直流电压转换的高频电压施加到感应加热线圈和电容器的每个串联谐振电路; 并且以相同的频率和电流同步操作多个逆变器的控制电路（50）进行控制，使得在向多个感应加热线圈提供最大功率的特定逆变器处的相位差变得最小 由此产生的高频电压和使串联谐振电路流过的谐振电流，并且设置施加到多个反相器的直流电源电压Vdc，使得输出电压（Vinv）变得大于互感电压（Vm）。

公开(公告)号：US20130248520A1

公开(公告)日：2013-09-26

申请号：US13991256

申请日：2010-12-03

申请人： Naoki Uchida ,  Yoshihiro Okazaki ,  Kazuhiro Ozaki

发明人： Naoki Uchida ,  Yoshihiro Okazaki ,  Kazuhiro Ozaki

IPC分类号： H05B6/08 ,  H05B6/44

CPC分类号： H05B6/08 ,  H05B6/04 ,  H05B6/06 ,  H05B6/062 ,  H05B6/44

摘要： The purpose of the present invention is to minimize switching losses of an inverter. An induction heating device includes: a plurality of induction heating coils (20) which are disposed adjacent with each other; a plurality of inverters (30), each of which has a capacitor (40) serially connected to each of the induction heating coils (20), and converts a DC voltage into a square wave voltage; and a control circuit (15) which controls so as to align the phase of coil currents flowing though the plurality of the induction heating coils (20), wherein the control circuit (15) controls the timing at which the square wave voltage transitions such that an instantaneous value of the square wave voltage is preserved in either the DC voltage or a turnover voltage, when the coil current zero crosses.

摘要翻译： 本发明的目的是最小化逆变器的开关损耗。 感应加热装置包括：彼此相邻布置的多个感应加热线圈（20）; 多个逆变器（30），每个具有与每个感应加热线圈（20）串联的电容器（40），并将DC电压转换成方波电压; 以及控制电路（15），其控制使对通过所述多个所述感应加热线圈（20）流动的线圈电流的相位对准，其中，所述控制电路（15）控制所述方波电压转换的定时，使得 当线圈电流为零时，方波电压的瞬时值被保持在直流电压或周转电压中。

公开(公告)号：US08465719B2

公开(公告)日：2013-06-18

申请号：US12425247

申请日：2009-04-16

申请人： Tadahiro Ohmi ,  Akinobu Teramoto ,  Sumio Sano ,  Fusao Fujita

发明人： Tadahiro Ohmi ,  Akinobu Teramoto ,  Sumio Sano ,  Fusao Fujita

IPC分类号： C01B31/36

CPC分类号： C23C16/325 ,  C23C16/01 ,  C23C16/56 ,  H01L23/49866 ,  H01L2924/0002 ,  H01L2924/3011 ,  H05K1/024 ,  H05K1/0306 ,  H05K3/0011 ,  H05K2203/1105 ,  H01L2924/00

摘要： A silicon carbide substrate has a high-frequency loss equal to or less than 2.0 dB/mm at 20 GHz is effective to mount and operate electronic components. The silicon carbide substrate is heated at 2000° C. or more to be reduced to the high-frequency loss equal to 2.0 dB/mm or less at 20 GHz. Moreover, manufacturing the silicon carbide substrate by CVD without flowing nitrogen into a heater enables the high-frequency loss to be reduced to 2.0 dB/mm or less.

摘要翻译： 在20GHz时，碳化硅衬底具有等于或小于2.0dB / mm的高频损耗有效地安装和操作电子元件。 将碳化硅衬底在2000℃或更高温度下加热至20GHz时降低至2.0dB / mm以下的高频损耗。 此外，通过CVD制造碳化硅衬底，而不将氮气流入加热器，能够将高频损耗降低到2.0dB / mm以下。

公开(公告)号：US20130140298A1

公开(公告)日：2013-06-06

申请号：US13816198

申请日：2011-07-28

申请人： Naoki Uchida ,  Yoshihiro Okazaki ,  Kazuhiro Ozaki

发明人： Naoki Uchida ,  Yoshihiro Okazaki ,  Kazuhiro Ozaki

IPC分类号： H05B6/10 ,  H05B6/44

CPC分类号： H05B6/06 ,  H01L21/67109 ,  H05B6/105 ,  H05B6/44

摘要： A semiconductor substrate thermal treatment apparatus enables excellent heating control in suppressing influence of mutual induction between induction heating coils even when the induction heating coils are arranged in the vertical direction while providing horizontal magnetic flux to susceptors. The apparatus indirectly heats wafers mounted on horizontally-arranged susceptors including induction heating coils to form alternate-current magnetic flux in a direction parallel to a mount face of the susceptor. The wafer are arranged at an outer circumferential side of the susceptor. The induction heating coils are structured with at least one main heating coil and subordinate heating coils electromagnetically coupled with the main heating coil. Inverse coupling coils inversely-coupled to the subordinate heating coils are provided to the main heating coil, and zone control means separately controls a power ratio while synchronizing frequencies and current waveforms of current to the main heating coil and adjacent subordinate heating coils.

公开(公告)号：US08420018B2

公开(公告)日：2013-04-16

申请号：US13428437

申请日：2012-03-23

申请人： Toru Iwasaki ,  Takashi Arai ,  Kiyoshi Horiguchi ,  Akira Tokinosu

发明人： Toru Iwasaki ,  Takashi Arai ,  Kiyoshi Horiguchi ,  Akira Tokinosu

IPC分类号： C01B6/00 ,  B01J19/00 ,  B01J8/18 ,  B01J8/00 ,  B01J8/08 ,  B01J19/18 ,  F27B15/00 ,  F27B15/08 ,  F27B15/14 ,  F27B15/16 ,  C01B3/32

CPC分类号： C10L3/108

摘要： A gas hydrate production apparatus capable of reacting a raw gas with a raw water to thereby form a slurry gas hydrate and capable of removing water from the slurry gas hydrate by means of a gravitational dewatering unit. The gravitational dewatering unit is one including a cylindrical first tower body; a cylindrical dewatering part disposed on top of the first tower body; a water receiving part disposed outside the dewatering part; and a cylindrical second tower body disposed on top of the dewatering part, wherein the cross-sectional area of the second tower body is continuously or intermittently increased upward from the bottom.

摘要翻译： 一种气体水合物制造装置，其能够使原料气与原水反应，从而形成浆料气体水合物，并能够通过重力脱水装置从浆料气体水合物中除去水分。 重力脱水装置是一个圆柱形第一塔体; 设置在第一塔体顶部的圆筒形脱水部件; 设置在脱水部的外侧的受水部; 以及设置在脱水部的顶部的筒状的第二塔体，其中，第二塔体的截面积从底部连续地或间歇地向上增加。

公开(公告)号：US20130052656A1

公开(公告)日：2013-02-28

申请号：US13696107

申请日：2011-05-06

申请人： Kazuteru Hoshishima ,  Shigeyuki Nakada

发明人： Kazuteru Hoshishima ,  Shigeyuki Nakada

IPC分类号： G01N21/64 ,  G06F19/00

CPC分类号： G01N33/542 ,  G01N21/6428 ,  G01N21/645 ,  G01N2021/6441

摘要： Disclosed herein is a method for measuring FRET by irradiating with laser light a measurement sample. FRET is transfer of energy from a first molecule to a second molecule. The first molecule and the second molecule are included in the measurement sample in which ligands are bound to receptors. The method includes the steps of: irradiating the measurement sample with laser light; measuring fluorescence emitted by the measurement sample; calculating a fluorescence lifetime of the first molecule; calculating a binding ratio; setting a binding condition for the measurement sample; and calculating a dissociation constant. In the dissociation constant calculating step, the dissociation constant is determined by using a least-squares method to fit a function having, as variables, a total concentration of the receptor in the measurement sample and the dissociation constant to the binding ratio calculated in the binding ratio calculating step.

摘要翻译： 本文公开了通过用激光照射测量样品来测量FRET的方法。 FRET是能量从第一分子转移到第二分子。 第一分子和第二分子包括在其中配体与受体结合的测量样品中。 该方法包括以下步骤：用激光照射测量样品; 测量由测量样品发出的荧光; 计算第一分子的荧光寿命; 计算结合比; 设置测量样品的结合条件; 并计算解离常数。 在解离常数计算步骤中，通过使用最小二乘法来确定解离常数，以将具有作为变量的受体在测量样品中的总浓度和解离常数的函数拟合为在结合中计算的结合比的函数 比率计算步骤。

公开(公告)号：US20120295278A1

公开(公告)日：2012-11-22

申请号：US13574087

申请日：2011-01-19

申请人： Hironori Hayashi ,  Shigeyuki Nakada

发明人： Hironori Hayashi ,  Shigeyuki Nakada

IPC分类号： G01N21/64 ,  G06F19/00

CPC分类号： G01N21/6408 ,  G01N15/1459 ,  G01N21/645 ,  G01N2021/6419 ,  G01N2021/6441

摘要： Two or more kinds of fluorescent beads containing at least two kinds of basic fluorochromes different in fluorescence intensity, fluorescence wavelength, and fluorescence relaxation time from each other, wherein a content ratio between the at least two kinds of basic fluorochromes and absolute amounts of contents of the basic fluorochromes are set so as to be different between different kinds of fluorescent beads. The fluorescent beads are used in a flow cytometer for fluorescence detection. This makes it possible to identify a greater variety of beads than before with high accuracy in a single measurement.

摘要翻译： 两种或更多种荧光珠，其含有荧光强度，荧光波长和荧光松弛时间彼此不同的至少两种碱性荧光染料，其中所述至少两种碱性荧光染料与含量绝对量的含量比 基本荧光染料被设定为在不同种类的荧光珠之间是不同的。 荧光珠用于流式细胞仪进行荧光检测。 这使得可以在单次测量中以高精度识别比以前更多种类的珠粒。

公开(公告)号：US20120285083A1

公开(公告)日：2012-11-15

申请号：US13557469

申请日：2012-07-25

申请人： Toru Iwasaki ,  Masahiro Takahashi ,  Takashi Arai ,  Shinji Takahashi ,  Kouhei Takamoto ,  Kenji Ogawa ,  Masafumi Aoba

发明人： Toru Iwasaki ,  Masahiro Takahashi ,  Takashi Arai ,  Shinji Takahashi ,  Kouhei Takamoto ,  Kenji Ogawa ,  Masafumi Aoba

IPC分类号： C10L5/08

CPC分类号： C10L3/10 ,  B30B11/16 ,  B30B15/308 ,  C10L3/108 ,  C10L5/363

摘要： Provided is a process and an apparatus for producing at low cost gas hydrate pellets having an excellent storability. A gas hydrate generated from a raw-material gas and raw-material water is dewatered and simultaneously molded into pellets with compression-molding means under conditions suitable for generating the gas hydrate while the gas hydrate is generated from the raw-material gas and the raw-material water that exist among particles of the gas hydrate.

摘要翻译： 本发明提供一种具有优异储存性能的低成本天然气水合物颗粒的制造方法和装置。 从原料气体和原料水生成的气体水合物在适于产生气体水合物的条件下脱水并同时用压缩成型装置成型为颗粒，同时从原料气体和原料气体产生气体水合物 - 天然气水合物颗粒中存在的物质水。

公开(公告)号：US08303293B2

公开(公告)日：2012-11-06

申请号：US12733899

申请日：2007-10-03

申请人： Toru Iwasaki ,  Masahiro Takahashi ,  Takashi Arai ,  Shinji Takahashi ,  Kouhei Takamoto ,  Kenji Ogawa ,  Masafumi Aoba

发明人： Toru Iwasaki ,  Masahiro Takahashi ,  Takashi Arai ,  Shinji Takahashi ,  Kouhei Takamoto ,  Kenji Ogawa ,  Masafumi Aoba

IPC分类号： B28B5/10

CPC分类号： C10L3/10 ,  B30B11/16 ,  B30B15/308 ,  C10L3/108 ,  C10L5/363

摘要： Provided is a process and an apparatus for producing at low cost gas hydrate pellets having an excellent storability. A gas hydrate generated from a raw-material gas and raw-material water is dewatered and simultaneously molded into pellets with compression-molding means under conditions suitable for generating the gas hydrate while the gas hydrate is generated from the raw-material gas and the raw-material water that exist among particles of the gas hydrate.

摘要翻译： 本发明提供一种具有优异储存性能的低成本天然气水合物颗粒的制造方法和装置。 从原料气体和原料水生成的气体水合物在适于产生气体水合物的条件下脱水并同时用压缩成型装置成型为颗粒，同时从原料气体和原料气体产生气体水合物 - 天然气水合物颗粒中存在的物质水。

公开(公告)号：US08241484B2

公开(公告)日：2012-08-14

申请号：US12294666

申请日：2007-03-28

申请人： Masahiro Saito ,  Gaku Taniguchi ,  Taishi Sato ,  Satoru Okada

发明人： Masahiro Saito ,  Gaku Taniguchi ,  Taishi Sato ,  Satoru Okada

IPC分类号： C02F1/461

CPC分类号： B01D61/425 ,  B01D61/147 ,  B01D61/16 ,  B01D65/08 ,  B01D2311/04 ,  B01D2313/345 ,  B01D2321/22 ,  B01D2321/223 ,  B63J4/002 ,  C02F1/444 ,  C02F1/4672 ,  C02F1/469 ,  C02F5/00 ,  C02F2103/008 ,  B01D2311/2603

摘要： [Problem] To provide a membrane treatment method and a membrane treatment apparatus for ballast water using a membrane module, which are capable of inhibiting the formation of scale on the membrane surface to reduce fouling, using a simple installation.[Means for Solving the Problem] The membrane treatment method and the membrane treatment apparatus for ballast water using a membrane module according to the invention, having a membrane treatment tank 2 and a membrane module 1 provided in the tank for continuously performing filtration while ballast water is being passed thereto as raw water; wherein a positive electrode and a negative electrode are provided in the membrane treatment tank 2 so as to come into contact with raw water in the tank, and a current passing means is provided in the tank for applying a voltage between the electrodes.

摘要翻译： 本发明提供使用膜组件的膜处理方法和膜处理装置，该膜组件能够通过简单的装置抑制膜表面上的氧化皮形成以减少结垢。 解决问题的方法使用本发明的膜组件的膜处理方法和压膜水处理装置，具有膜处理槽2和膜组件1，该膜组件1设置在罐中，用于连续地进行过滤，同时压载水 正在作为原水传递; 其特征在于，在所述膜处理槽2中设置正极和负极以与所述槽中的原水接触，并且在所述槽中设置电流通过装置，用于在所述电极之间施加电压。