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1. 发明申请

US20120256492A1 Passive RF Energy Harvesting Scheme For Wireless Sensor 有权
标题翻译：无线传感器的无源射频能量收集方案
公开(公告)号：US20120256492A1
公开(公告)日：2012-10-11
申请号：US11691545
申请日：2007-03-27
申请人： Zhen Song , Chellury R. Sastry
发明人： Zhen Song , Chellury R. Sastry
IPC分类号： H02J9/00
CPC分类号： H02J50/27 , H02J1/102 , H02J7/025 , H02J17/00 , H02J50/50 , Y10T307/615 , Y10T307/625
摘要： A radio frequency energy harvester harvests RF energy from the environment. The energy harvester may include a local power source. The energy harvester may have an associated crystal radio antenna that harvests AM radio waves ubiquitously. The radio frequency energy harvested may be stored via a super capacitor. The stored energy may power a self-contained processing unit directly when the level of the energy harvested remains above a threshold level. However, if the energy harvested drops below the threshold level, the processing unit, which may include a radio, may switch to the local power source and/or a low power mode of operation. The low power mode of operation may reduce the amount of processing and/or transmitting by the radio. The processing unit may be part of a network of radios. The energy harvester may supply energy for a variety of applications, including building automation, industrial automation, power generation, and healthcare.
摘要翻译：射频能量收割机从环境中收获射频能量。能量收集器可以包括本地电源。能量收集器可以具有相关的水晶无线电天线，它们无处不在地收集AM无线电波。收集的射频能量可以通过超级电容器存储。当所收集的能量水平保持高于阈值水平时，存储的能量可以直接为自包含处理单元供电。然而，如果收获的能量下降到阈值以下，则可以包括无线电的处理单元可以切换到本地电源和/或低功率操作模式。低功率操作模式可以减少无线电处理和/或发射的量。处理单元可以是无线电网络的一部分。能源收集机可以为各种应用提供能源，包括楼宇自动化，工业自动化，发电和医疗保健。

2. 发明授权

US08552597B2 Passive RF energy harvesting scheme for wireless sensor 有权
标题翻译：无线传感器的无源射频能量采集方案
公开(公告)号：US08552597B2
公开(公告)日：2013-10-08
申请号：US11691545
申请日：2007-03-27
申请人： Zhen Song , Chellury R. Sastry
发明人： Zhen Song , Chellury R. Sastry
IPC分类号： H02J17/00
CPC分类号： H02J50/27 , H02J1/102 , H02J7/025 , H02J17/00 , H02J50/50 , Y10T307/615 , Y10T307/625
摘要： A radio frequency energy harvester harvests RF energy from the environment. The energy harvester may include a local power source. The energy harvester may have an associated crystal radio antenna that harvests AM radio waves ubiquitously. The radio frequency energy harvested may be stored via a super capacitor. The stored energy may power a self-contained processing unit directly when the level of the energy harvested remains above a threshold level. However, if the energy harvested drops below the threshold level, the processing unit, which may include a radio, may switch to the local power source and/or a low power mode of operation. The low power mode of operation may reduce the amount of processing and/or transmitting by the radio. The processing unit may be part of a network of radios. The energy harvester may supply energy for a variety of applications, including building automation, industrial automation, power generation, and healthcare.
摘要翻译：射频能量收割机从环境中收获射频能量。能量收集器可以包括本地电源。能量收集器可以具有相关的水晶无线电天线，它们无处不在地收集AM无线电波。收集的射频能量可以通过超级电容器存储。当所收集的能量水平保持高于阈值水平时，存储的能量可以直接为自包含处理单元供电。然而，如果收获的能量下降到阈值以下，则可以包括无线电的处理单元可以切换到本地电源和/或低功率操作模式。低功率操作模式可以减少无线电处理和/或发射的量。处理单元可以是无线电网络的一部分。能源收集机可以为各种应用提供能源，包括楼宇自动化，工业自动化，发电和医疗保健。

3. 发明授权

US08821771B2 Flame spray pyrolysis method for forming nanoscale lithium metal phosphate powders 有权
标题翻译：用于形成纳米级锂金属磷酸盐粉末的火焰喷雾热解法
公开(公告)号：US08821771B2
公开(公告)日：2014-09-02
申请号：US13627384
申请日：2012-09-26
申请人： Michael Edward Badding , Jacqueline Leslie Brown , Curtis Robert Fekety , Zhen Song
发明人： Michael Edward Badding , Jacqueline Leslie Brown , Curtis Robert Fekety , Zhen Song
IPC分类号： C01D15/00
CPC分类号： C04B35/6264 , B82Y30/00 , B82Y40/00 , C01B25/45 , C04B35/447 , C04B35/62665 , C04B2235/3203 , C04B2235/3217 , C04B2235/3232 , C04B2235/3287 , C04B2235/5454 , C04B2235/6025 , C04B2235/80 , H01M10/052 , H01M10/0562
摘要： A flame spray pyrolysis method for making nanoscale, lithium ion-conductive ceramic powders comprises providing a precursor solution comprising chemical precursors dissolved in an organic solvent, and spraying the precursor solution into an oxidizing flame to form a nanoscale, lithium ion-conductive ceramic powder, wherein a concentration of the chemical precursors in the solvent ranges from 1 to 20 M. The precursor solution can comprise 1-20% excess lithium with respect to a stoichiometric composition of the ceramic powder. Nominal compositions of the nanoscale, ceramic powders are Li1.4Al0.4M1.6(PO4)3 where M is Ti or Ge.
摘要翻译：一种用于制造纳米级锂离子传导性陶瓷粉末的火焰喷射热解方法包括提供包含溶解在有机溶剂中的化学前体的前体溶液，并将前体溶液喷射到氧化火焰中以形成纳米尺寸的锂离子传导性陶瓷粉末，其中溶剂中化学前体的浓度范围为1至20M。相对于陶瓷粉末的化学计量组成，前体溶液可以包含1-20％过量的锂。纳米级陶瓷粉末的名义组成为Li1.4Al0.4M1.6（PO4）3，其中M为Ti或Ge。

4. 发明授权

US08393478B2 Inorganic membranes and method of making 有权
标题翻译：无机膜及其制造方法
公开(公告)号：US08393478B2
公开(公告)日：2013-03-12
申请号：US11894065
申请日：2007-08-20
申请人： Curtis Robert Fekety , Wei Liu , Zhen Song , Joseph Marc Whalen
发明人： Curtis Robert Fekety , Wei Liu , Zhen Song , Joseph Marc Whalen
IPC分类号： B01D71/02 , B01D67/00 , B01D69/00
CPC分类号： B01D67/0046 , B01D71/025 , B01D2323/08
摘要： An inorganic membrane having an improved pore structure. The membrane has a mean pore size of up to about 100 nm and a mean particle size in a range from about 10 nm to about 100 nm. In one embodiment, the membrane comprises α-alumina and is formed by providing a coating slip comprising δ-alumina; applying the coating slip to a support surface to form a coating layer; drying the coating layer; and firing the dried coating layer at a temperature of at least about 1000° C. to convert at least a portion of the δ-alumina to α-alumina and form the inorganic membrane.
摘要翻译：具有改善的孔结构的无机膜。该膜具有高达约100nm的平均孔径和约10nm至约100nm范围内的平均粒度。在一个实施方案中，膜包含α-氧化铝，并且通过提供包含δ-氧化铝的涂层滑移形成; 将涂层滑动剂施加到支撑表面以形成涂层; 干燥涂层; 并在至少约1000℃的温度下焙烧干燥的涂层，以将至少一部分δ-氧化铝转化成α-氧化铝并形成无机膜。

5. 发明申请

US20110094577A1 CONDUCTIVE METAL OXIDE FILMS AND PHOTOVOLTAIC DEVICES 审中-公开
标题翻译：导电金属氧化物膜和光电器件
公开(公告)号：US20110094577A1
公开(公告)日：2011-04-28
申请号：US12887761
申请日：2010-09-22
申请人： Dilip Kumar Chatterjee , Curtis Robert Fekety , Lenwood Lynell Fields , Zhen Song , Lili Tian , Ji Wang
发明人： Dilip Kumar Chatterjee , Curtis Robert Fekety , Lenwood Lynell Fields , Zhen Song , Lili Tian , Ji Wang
IPC分类号： H01L31/0216 , B32B5/00 , B32B17/06 , B32B18/00 , B32B15/04 , B32B27/06 , C01B11/00 , C01G19/02
CPC分类号： C23C18/1216 , C03C17/253 , C03C17/36 , C03C17/3678 , C03C2217/94 , C23C18/1258 , C23C18/1291 , H01L31/1884 , Y02E10/50 , Y10T428/265
摘要： Article comprising a substrate; and a conductive metal oxide film adjacent to a surface of the substrate, wherein the conductive metal oxide film has an electron mobility (cm2/V-s) of 35 or greater are described. Photovoltaic devices comprising conductive metal oxide films are also described.
摘要翻译：制品包括基材; 以及与基板的表面相邻的导电性金属氧化物膜，其中，导电性金属氧化物膜的电子迁移率（cm2 / V-s）为35以上。还描述了包括导电金属氧化物膜的光伏器件。

6. 发明申请

US20090000475A1 Zeolite membrane structures and methods of making zeolite membrane structures 审中-公开
标题翻译：沸石膜结构和制备沸石膜结构的方法
公开(公告)号：US20090000475A1
公开(公告)日：2009-01-01
申请号：US11824464
申请日：2007-06-29
申请人： Curtis Robert Fekety , Lyle David Kinney , Wei Liu , Zhen Song
发明人： Curtis Robert Fekety , Lyle David Kinney , Wei Liu , Zhen Song
IPC分类号： B01D53/047 , B01J20/02 , B01J20/28
CPC分类号： B01J35/065 , B01D53/228 , B01D63/066 , B01D67/0051 , B01D69/105 , B01D69/12 , B01D71/028 , B01D2256/22 , B01D2325/02 , B01J29/035 , B01J29/40 , B01J37/0244 , B01J2229/64 , Y02C10/08
摘要： Inorganic membrane structures of high stability, high permeability, and large surface area. Zeolite membranes can be disposed onto an intermediate pore size modification layer which reduces the pore size of the inorganic porous support. The intermediate pore size modification layer minimizes the defects in the zeolite membrane and provides a more continuous and uniform zeolite membrane. The inorganic membrane structure can be in the form of a honeycomb monolith. The applications for the zeolite membranes include, for example, membrane ultra-filtration of gas or liquid fluids, biological assays and cell culture surfaces.
摘要翻译：无机膜结构稳定性高，渗透性高，表面积大。沸石膜可以设置在减小无机多孔载体的孔径的中等孔径改性层上。中间孔径改性层使沸石膜中的缺陷最小化，并提供更连续和均匀的沸石膜。无机膜结构可以是蜂窝状整料的形式。沸石膜的应用包括例如气体或液体流体的膜超滤，生物测定和细胞培养表面。

7. 发明授权

US10411288B2 Reactive sintering of ceramic lithium-ion solid electrolytes 有权
公开(公告)号：US10411288B2
公开(公告)日：2019-09-10
申请号：US13306011
申请日：2011-11-29
申请人： Bruce Gardiner Aitken , Michael Edward Badding , George Halsey Beall , Curtis Robert Fekety , Lanrik Wayne Kester , Robert Michael Morena , Zhen Song
发明人： Bruce Gardiner Aitken , Michael Edward Badding , George Halsey Beall , Curtis Robert Fekety , Lanrik Wayne Kester , Robert Michael Morena , Zhen Song
IPC分类号： H01M10/0562 , C03C3/16 , C03C3/253 , C04B35/447 , H01M10/0525 , C03B19/06 , B82Y30/00 , C03C8/14 , C03C8/20
摘要： A method of forming a solid, dense, hermetic lithium-ion electrolyte membrane comprises combing an amorphous, glassy, or low melting temperature solid reactant with a refractory oxide reactant to form a mixture, casting the mixture to form a green body, and sintering the green body to form a solid membrane. The resulting electrolyte membranes can be incorporated into lithium-ion batteries.

8. 发明授权

US09535411B2 Cloud enabled building automation system 有权
标题翻译：支持云的楼宇自动化系统
公开(公告)号：US09535411B2
公开(公告)日：2017-01-03
申请号：US13916871
申请日：2013-06-13
申请人： Dong Wei , Florin Darie , Kun Ji , Zhen Song
发明人： Dong Wei , Florin Darie , Kun Ji , Zhen Song
IPC分类号： G05B19/02 , G05B15/02 , G06Q50/06
CPC分类号： G05B19/02 , G05B15/02 , G05B2219/2642 , G06Q50/06
摘要： A method of controlling energy consumption in a building. The method includes receiving occupant request data including a plurality of requests, wherein each of the plurality of requests corresponds to one of a plurality of zones in the building wherein the occupant request data is received via a cloud computing resource. The method also includes receiving weather data including at least one of current weather measurement data and weather forecast data wherein the weather data is received via a cloud computing resource. In addition, a facility management rule is received via a cloud computing resource. Further, the method includes generating a plurality of output control signals via cloud computing resource, wherein each of the plurality of output control signals is based on one of a plurality of requests and predicted occupant schedules, energy price data and the facility management rule. The control signals are generated by using simulation-based model predictive control method to determine a set of optimized control signals based on optimized energy use or optimized energy cost. The optimized control signals are transmitted to controllers.
摘要翻译：一种控制建筑物能耗的方法。该方法包括接收包括多个请求的乘员请求数据，其中多个请求中的每一个对应于建筑物中的多个区域中的一个，其中乘客请求数据经由云计算资源被接收。该方法还包括接收包括当前天气测量数据和天气预报数据中的至少一个的天气数据，其中通过云计算资源接收天气数据。此外，通过云计算资源接收设施管理规则。此外，该方法包括通过云计算资源生成多个输出控制信号，其中多个输出控制信号中的每一个基于多个请求和预测的乘客计划，能量价格数据和设施管理规则中的一个。通过使用基于模拟的模型预测控制方法来生成控制信号，以基于优化的能量使用或优化的能量成本确定一组优化的控制信号。优化的控制信号传输到控制器。

9. 发明授权

US08609032B2 Porous ceramic honeycomb articles and methods for making the same 有权
标题翻译：多孔陶瓷蜂窝制品及其制造方法
公开(公告)号：US08609032B2
公开(公告)日：2013-12-17
申请号：US12955268
申请日：2010-11-29
申请人： Thorsten Rolf Boger , Weiguo Miao , Zhen Song , Jianguo Wang
发明人： Thorsten Rolf Boger , Weiguo Miao , Zhen Song , Jianguo Wang
IPC分类号： B01D50/00
CPC分类号： B28B11/00 , B01D46/2425 , B01D46/2429 , B01D46/247 , B01D53/944 , B01D53/945 , B01D2046/2433 , B01D2046/2437 , B01D2255/20738 , B01D2255/504 , B01D2255/9205 , B01D2258/012 , B01D2279/30 , B01J29/46 , B01J35/04 , B01J37/0215 , B01J37/0246 , C04B35/195 , C04B38/0009 , C04B2111/00793 , C04B2111/0081 , C04B2235/3217 , C04B2235/3418 , C04B2235/3445 , Y02A50/2324 , Y02T10/22 , C04B38/0054 , C04B38/0074
摘要： A porous ceramic honeycomb article comprising a honeycomb body formed from cordierite ceramic, wherein the honeycomb body has a porosity P %≧55% and a cell channel density CD ≧150 cpsi. The porous channel walls have a wall thickness T, wherein (11+(300−CD)*0.03)≧T≧(8+(300−CD)*0.02), a median pore size ≦20 microns, and a pore size distribution with a d-factor of ≦0.35. The honeycomb body has a specific pore volume of VP≦0.22. The porous ceramic honeycomb article exhibits a coated pressure drop increase of ≦8 kPa at a flow rate of 26.5 cubic feet per minute when coated with 100 g/L of a washcoat catalyst and loaded with 5 g/L of soot.
摘要翻译：一种多孔陶瓷蜂窝体制品，包括由堇青石陶瓷形成的蜂窝体，其中所述蜂窝体的孔隙率P％> 55％，泡孔通道密度CD> = 150cpsi。多孔通道壁具有壁厚T，其中（11+（300-CD）* 0.03）> = T> =（8+（300-CD）* 0.02），20微米的中值孔径和尺寸分布，d因子为@ 0.35。蜂窝体的孔隙体积为VP@0.22。当涂覆有100g / L的修补基面涂层催化剂并加载5g / L的烟炱时，多孔陶瓷蜂窝体制品以26.5立方英尺/分钟的流速显示出@ 8kPa的涂层压降增加。

10. 发明申请

US20130231792A1 System and Method of Energy Management Control 审中-公开
标题翻译：能源管理控制系统与方法
公开(公告)号：US20130231792A1
公开(公告)日：2013-09-05
申请号：US13763870
申请日：2013-02-11
申请人： Kun Ji , Yan Lu , Zhen Song
发明人： Kun Ji , Yan Lu , Zhen Song
IPC分类号： G05B19/02
CPC分类号： G05B19/02 , F24F11/30 , F24F11/62 , F24F11/65 , F24F2120/10 , F24F2130/00 , F24F2130/10 , G05B15/02 , G05B2219/2642 , G05D23/1923
摘要： A method of controlling energy consumption in a building includes receiving occupancy data including at least one of occupant request data and occupant schedule data, receiving weather data including at least one of current weather measurement data and weather forecast data, generating an output control signal based on the occupancy data and the weather data, and transmitting the output control signal to a building automation system (BAS) of the building. The occupant request data includes a current request, and the occupant schedule data includes a predicted occupant schedule. The output control signal adjusts a building control device in a zone in the building.
摘要翻译：一种控制建筑物的能源消耗的方法，包括：接收占用数据，包括占用者请求数据和乘员计划数据中的至少一个，接收包括当前天气测量数据和天气预报数据中的至少一个的天气数据，基于占用数据和天气数据，并将输出控制信号发送到建筑物的楼宇自动化系统（BAS）。占用者请求数据包括当前请求，并且乘客日程表数据包括预测的乘客日程表。输出控制信号调整建筑物中的建筑物控制装置。

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