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1.发明授权Carbon nanofibers derived from polymer nanofibers and method of producing the nanofibers 有权衍生自聚合物纳米纤维的碳纳米纤维和生产纳米纤维的方法公开(公告)号:US08608992B2
公开(公告)日:2013-12-17
申请号:US13243302
申请日:2011-09-23
Applicant: Ioannis Chasiotis , Mohammad Naraghi , Salman N. Arshad
Inventor: Ioannis Chasiotis , Mohammad Naraghi , Salman N. Arshad
CPC classification number: D01F9/14 , D01D5/0076 , Y10T428/2929 , Y10T428/298
Abstract: A method for producing one or more nanofibers includes providing (a) a solution comprising a polymer and a solvent, (b) a nozzle for ejecting the solution, and (c) a stationary collector disposed a distance d apart from the nozzle. A voltage is applied between the nozzle and the stationary collector, and a jet of the solution is ejected from the nozzle toward the stationary collector. An electric field intensity of between about 0.5 and about 2.0 kV/cm is maintained, where the electric field intensity is defined as a ratio of the voltage to the distance d. At least a portion of the solvent from the stream is evaporated, and one or more polymer nanofibers are deposited on the stationary collector as the stream impinges thereupon. Each polymer nanofiber has an average diameter of about 500 nm or less and may serve as a precursor for carbon fiber production.
Abstract translation: 制备一种或多种纳米纤维的方法包括提供(a)包含聚合物和溶剂的溶液,(b)用于喷射溶液的喷嘴,和(c)与喷嘴隔开距离d设置的固定收集器。 在喷嘴和固定收集器之间施加电压,并且溶液的射流从喷嘴朝固定式收集器喷出。 维持约0.5至约2.0kV / cm的电场强度,其中电场强度被定义为电压与距离d的比值。 至少一部分来自该物流的溶剂被蒸发,并且一个或多个聚合物纳米纤维沉积在固定收集器上,因为流在其上撞击。 每种聚合物纳米纤维的平均直径为约500nm或更小,并且可以用作碳纤维生产的前体。
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2.发明申请公开(公告)号:US20130305647A1
公开(公告)日:2013-11-21
申请号:US13948779
申请日:2013-07-23
Applicant: Mohammad Naraghi
Inventor: Mohammad Naraghi
IPC: F24J2/00
CPC classification number: E04F13/075 , E04F13/0864 , E04F13/0871 , E06B2009/2417 , F24S20/61 , F24S2023/88 , Y02B10/20 , Y02E10/40 , Y10T428/24355
Abstract: Disclosed are various building facade surface configurations and related methods. An exemplary facade includes grooved cavities that are configured in a manner that reflects summer (cooling season) insolation and absorbs winter (heating season) insolation. The effective absorptivities of the exemplary facade for various cavity reflectance characteristics, i.e., a wide range of diffuse and specular reflectance characteristics, are evaluated using a Monte Carlo model. The calculations in an illustrated embodiment are performed for the latitude of 41° N where both heating and cooling loads are significant. Embodiments of facades and other structures are similarly within the scope of the disclosure for locations of different latitudes and longitudes.
Abstract translation: 公开了各种建筑立面表面配置和相关方法。 典型的立面包括以反映夏季(冷却季节)日晒并吸收冬季(加热季节)日晒的方式配置的开槽空腔。 使用蒙特卡罗模型来评估各种腔反射特性的示例性立面的有效吸收率,即宽范围的漫反射特性。 在图示的实施例中的计算对于41°N的纬度进行,其中加热和冷却负载都是显着的。 正面和其他结构的实施例在不同纬度和经度的位置的类似地在本公开的范围内。
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3.发明授权Building facade surface for seasonal selectiveness of solar irradiation absorption and reflection 有权建筑立面,用于季节选择性的太阳辐射吸收和反射公开(公告)号:US08726601B2
公开(公告)日:2014-05-20
申请号:US13948779
申请日:2013-07-23
Applicant: Mohammad Naraghi
Inventor: Mohammad Naraghi
CPC classification number: E04F13/075 , E04F13/0864 , E04F13/0871 , E06B2009/2417 , F24S20/61 , F24S2023/88 , Y02B10/20 , Y02E10/40 , Y10T428/24355
Abstract: Disclosed are various building facade surface configurations and related methods. An exemplary facade includes grooved cavities that are configured in a manner that reflects summer (cooling season) insolation and absorbs winter (heating season) insolation. The effective absorptivities of the exemplary facade for various cavity reflectance characteristics, i.e., a wide range of diffuse and specular reflectance characteristics, are evaluated using a Monte Carlo model. The calculations in an illustrated embodiment are performed for the latitude of 41° N where both heating and cooling loads are significant. Embodiments of facades and other structures are similarly within the scope of the disclosure for locations of different latitudes and longitudes.
Abstract translation: 公开了各种建筑立面表面配置和相关方法。 典型的立面包括以反映夏季(冷却季节)日晒并吸收冬季(加热季节)日晒的方式配置的开槽空腔。 使用蒙特卡罗模型来评估各种腔反射特性的示例性立面的有效吸收率,即宽范围的漫反射特性。 在图示的实施例中的计算对于41°N的纬度进行,其中加热和冷却负载都是显着的。 正面和其他结构的实施例在不同纬度和经度的位置的类似地在本公开的范围内。
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4.发明申请BUILDING FACADE SURFACE FOR SEASONAL SELECTIVENESS OF SOLAR IRRADIATION ABSORPTION AND REFLECTION 审中-公开太阳能辐射吸收和反射的季节选择性建筑面积公开(公告)号:US20120186167A1
公开(公告)日:2012-07-26
申请号:US13357038
申请日:2012-01-24
Applicant: Mohammad Naraghi
Inventor: Mohammad Naraghi
CPC classification number: E04F13/075 , E04F13/0864 , E04F13/0871 , E06B2009/2417 , F24S20/61 , F24S2023/88 , Y02B10/20 , Y02E10/44 , Y10T428/24355
Abstract: Disclosed are various building facade surface configurations and related methods. An exemplary facade includes grooved cavities that are configured in a manner that reflects summer (cooling season) insolation and absorbs winter (heating season) insolation. The effective absorptivities of the exemplary facade for various cavity reflectance characteristics, i.e., a wide range of diffuse and specular reflectance characteristics, are evaluated using a Monte Carlo model. The calculations in an illustrated embodiment are performed for the latitude of 41° N where both heating and cooling loads are significant. Embodiments of facades and other structures are similarly within the scope of the disclosure for locations of different latitudes and longitudes.
Abstract translation: 公开了各种建筑立面表面配置和相关方法。 典型的立面包括以反映夏季(冷却季节)日晒并吸收冬季(加热季节)日晒的方式配置的开槽空腔。 使用蒙特卡罗模型来评估各种腔反射特性的示例性立面的有效吸收率,即宽范围的漫反射特性。 在图示的实施例中的计算对于41°N的纬度进行,其中加热和冷却负载都是显着的。 正面和其他结构的实施例在不同纬度和经度的位置的类似地在本公开的范围内。
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5.发明申请CARBON NANOFIBERS DERIVED FROM POLYMER NANOFIBERS AND METHOD OF PRODUCING THE NANOFIBERS 有权从聚合物纳米纤维衍生的碳纳米纤维和生产纳米纤维的方法公开(公告)号:US20120077032A1
公开(公告)日:2012-03-29
申请号:US13243302
申请日:2011-09-23
Applicant: Ioannis Chasiotis , Mohammad Naraghi , Salman N. Arshad
Inventor: Ioannis Chasiotis , Mohammad Naraghi , Salman N. Arshad
CPC classification number: D01F9/14 , D01D5/0076 , Y10T428/2929 , Y10T428/298
Abstract: A method for producing one or more nanofibers includes providing (a) a solution comprising a polymer and a solvent, (b) a nozzle for ejecting the solution, and (c) a stationary collector disposed a distance d apart from the nozzle. A voltage is applied between the nozzle and the stationary collector, and a jet of the solution is ejected from the nozzle toward the stationary collector. An electric field intensity of between about 0.5 and about 2.0 kV/cm is maintained, where the electric field intensity is defined as a ratio of the voltage to the distance d. At least a portion of the solvent from the stream is evaporated, and one or more polymer nanofibers are deposited on the stationary collector as the stream impinges thereupon. Each polymer nanofiber has an average diameter of about 500 nm or less and may serve as a precursor for carbon fiber production.
Abstract translation: 制备一种或多种纳米纤维的方法包括提供(a)包含聚合物和溶剂的溶液,(b)用于喷射溶液的喷嘴,和(c)与喷嘴隔开距离d设置的固定收集器。 在喷嘴和固定收集器之间施加电压,并且溶液的射流从喷嘴朝固定式收集器喷出。 维持约0.5至约2.0kV / cm的电场强度,其中电场强度被定义为电压与距离d的比值。 至少一部分来自该物流的溶剂被蒸发,并且一个或多个聚合物纳米纤维沉积在固定收集器上,因为流在其上撞击。 每种聚合物纳米纤维的平均直径为约500nm或更小,并且可以用作碳纤维生产的前体。
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Patent Agency Ranking
6.发明申请System for managing healthcare data including genomic and other patient specific information 有权用于管理医疗保健数据的系统,包括基因组和其他患者特定信息公开(公告)号:US20050158767A1
公开(公告)日:2005-07-21
申请号:US11016038
申请日:2004-12-17
Applicant: Robert Haskell , Ernst Bartsch , Dorin Comaniciu , Mohammad Naraghi
Inventor: Robert Haskell , Ernst Bartsch , Dorin Comaniciu , Mohammad Naraghi
Abstract: A system, for processing patient medical information for storage in an electronic patient medical record repository, includes an interface, a repository, and a data processor. The interface receives data representing genomic information of a patient. The repository includes a patient record incorporating data representing genomic information specific to a particular patient. A data processor compares the genomic information specific to a particular patient with the received genomic information. The data processor identifies a genomic match in response to the comparison and predetermined matching criteria. The data processor initiates processing of patient record information specific to the particular patient in response to an identified match.
Abstract translation: 用于处理患者医疗信息以存储在电子病人医疗记录库中的系统包括接口,存储库和数据处理器。 界面接收表示病人基因组信息的数据。 存储库包括结合表示特定患者特定基因组信息的数据的患者记录。 数据处理器将特定患者特异的基因组信息与接收到的基因组信息进行比较。 数据处理器响应于比较和预定匹配标准识别基因组匹配。 响应于所识别的匹配,数据处理器启动特定于特定患者的患者记录信息的处理。
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7.发明申请STRUCTURE WITH SURFACE FOR SEASONAL SELECTIVENESS OF SOLAR IRRADIATION ABSORPTION AND REFLECTION 审中-公开表面结构与太阳辐射吸收和反射的季节选择公开(公告)号:US20150101271A1
公开(公告)日:2015-04-16
申请号:US14519804
申请日:2014-10-21
Applicant: Mohammad Naraghi
Inventor: Mohammad Naraghi
IPC: E04F13/072 , E04D13/00 , E04B1/76
CPC classification number: E04F13/072 , E04B1/76 , E04B2001/7691 , E04D13/00 , E04F13/0871 , E04F2290/04 , E04H7/00 , F24S20/61 , F24S20/66 , F24S70/60 , F24S2023/88 , Y02B10/20 , Y02E10/44 , Y10T428/24355
Abstract: Disclosed are various structure surface configurations and related methods. An exemplary structure includes a facade that has grooved cavities that are configured in a manner that reflects summer (cooling season) insolation and absorbs winter (heating season) insolation. The effective absorptivities of the exemplary structure for various cavity reflectance characteristics, i.e., a wide range of diffuse and specular reflectance characteristics, are evaluated using a Monte Carlo model. The calculations in an illustrated embodiment are performed for the latitude of 41° N where both heating and cooling loads are significant. Embodiments of various structures are similarly within the scope of the disclosure for locations of different latitudes and longitudes.
Abstract translation: 公开了各种结构表面构造和相关方法。 示例性结构包括具有凹槽的外立面,其以反映夏季(冷却季节)日照并吸收冬季(加热季节)日照的方式构造。 使用蒙特卡罗模型评估各种腔反射特性的示例性结构的有效吸收率,即宽范围的漫反射特性。 在图示的实施例中的计算对于41°N的纬度进行,其中加热和冷却负载都是显着的。 各种结构的实施例类似地在不同纬度和经度的位置的本公开的范围内。
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8.发明申请公开(公告)号:US20140242334A1
公开(公告)日:2014-08-28
申请号:US14274533
申请日:2014-05-09
Applicant: Mohammad Naraghi
Inventor: Mohammad Naraghi
IPC: F24J2/00 , E04F13/075
CPC classification number: E04F13/075 , E04F13/0864 , E04F13/0871 , E06B2009/2417 , F24S20/61 , F24S2023/88 , Y02B10/20 , Y02E10/40 , Y10T428/24355
Abstract: Disclosed are various structure surface configurations and related methods. An exemplary structure includes a facade that has grooved cavities that are configured in a manner that reflects summer (cooling season) insolation and absorbs winter (heating season) insolation. The effective absorptivities of the exemplary structure for various cavity reflectance characteristics, i.e., a wide range of diffuse and specular reflectance characteristics, are evaluated using a Monte Carlo model. The calculations in an illustrated embodiment are performed for the latitude of 41° N where both heating and cooling loads are significant. Embodiments of various structures are similarly within the scope of the disclosure for locations of different latitudes and longitudes.
Abstract translation: 公开了各种结构表面构造和相关方法。 示例性结构包括具有凹槽的外立面,其以反映夏季(冷却季节)日照并吸收冬季(加热季节)日照的方式配置。 使用蒙特卡罗模型评估各种腔反射特性的示例性结构的有效吸收率,即宽范围的漫反射特性。 在图示的实施例中的计算对于41°N的纬度进行,其中加热和冷却负载都是显着的。 各种结构的实施例类似地在不同纬度和经度的位置的本公开的范围内。
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9.发明授权System for managing healthcare data including genomic and other patient specific information 有权用于管理医疗保健数据的系统,包括基因组和其他患者特定信息公开(公告)号:US07788040B2
公开(公告)日:2010-08-31
申请号:US11016038
申请日:2004-12-17
Applicant: Robert Emmons Haskell , Ernst Bartsch , Dorin Comaniciu , Mohammad Naraghi
Inventor: Robert Emmons Haskell , Ernst Bartsch , Dorin Comaniciu , Mohammad Naraghi
Abstract: A system, for processing patient medical information for storage in an electronic patient medical record repository, includes an interface, a repository, and a data processor. The interface receives data representing genomic information of a patient. The repository includes a patient record incorporating data representing genomic information specific to a particular patient. A data processor compares the genomic information specific to a particular patient with the received genomic information. The data processor identifies a genomic match in response to the comparison and predetermined matching criteria. The data processor initiates processing of patient record information specific to the particular patient in response to an identified match.
Abstract translation: 用于处理患者医疗信息以存储在电子病人医疗记录库中的系统包括接口,存储库和数据处理器。 界面接收表示病人基因组信息的数据。 存储库包括结合表示特定患者特定基因组信息的数据的患者记录。 数据处理器将特定患者特异的基因组信息与接收到的基因组信息进行比较。 数据处理器响应于比较和预定匹配标准识别基因组匹配。 响应于所识别的匹配,数据处理器启动特定于特定患者的患者记录信息的处理。
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10.发明授权Structure with surface for seasonal selectiveness of solar irradiation absorption and reflection 有权具有表面的结构,用于太阳辐射吸收和反射的季节性选择公开(公告)号:US09027305B2
公开(公告)日:2015-05-12
申请号:US14519804
申请日:2014-10-21
Applicant: Mohammad Naraghi
Inventor: Mohammad Naraghi
IPC: E04B1/343 , E04F13/072 , E04B1/76 , E04D13/00
CPC classification number: E04F13/072 , E04B1/76 , E04B2001/7691 , E04D13/00 , E04F13/0871 , E04F2290/04 , E04H7/00 , F24S20/61 , F24S20/66 , F24S70/60 , F24S2023/88 , Y02B10/20 , Y02E10/44 , Y10T428/24355
Abstract: Disclosed are various structure surface configurations and related methods. An exemplary structure includes a facade that has grooved cavities that are configured in a manner that reflects summer (cooling season) insolation and absorbs winter (heating season) insolation. The effective absorptivities of the exemplary structure for various cavity reflectance characteristics, i.e., a wide range of diffuse and specular reflectance characteristics, are evaluated using a Monte Carlo model. The calculations in an illustrated embodiment are performed for the latitude of 41° N where both heating and cooling loads are significant. Embodiments of various structures are similarly within the scope of the disclosure for locations of different latitudes and longitudes.
Abstract translation: 公开了各种结构表面构造和相关方法。 示例性结构包括具有凹槽的外立面,其以反映夏季(冷却季节)日照并吸收冬季(加热季节)日照的方式配置。 使用蒙特卡罗模型评估各种腔反射特性的示例性结构的有效吸收率,即宽范围的漫反射特性。 在图示的实施例中的计算对于41°N的纬度进行,其中加热和冷却负载都是显着的。 各种结构的实施例类似地在不同纬度和经度的位置的本公开的范围内。
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