公开(公告)号：US20120045688A1

公开(公告)日：2012-02-23

申请号：US12806679

申请日：2010-08-19

Applicant: Chenguang Liu ,  Aruna Zhamu ,  David Neff ,  Bor Z. Jang

Inventor： Chenguang Liu ,  Aruna Zhamu ,  David Neff ,  Bor Z. Jang

IPC: H01M10/052 ,  H01M10/0563

CPC classification number: H01M4/587 ,  H01G11/06 ,  H01G11/38 ,  H01G11/50 ,  H01M10/0525 ,  Y02E60/122 ,  Y02E60/13 ,  Y02T10/7011 ,  Y02T10/7022

Abstract: An electrochemical energy storage device, lithium super-battery, comprising a positive electrode, a negative electrode, a porous separator disposed between the two electrodes, and a lithium-containing electrolyte in physical contact with the two electrodes, wherein the positive electrode comprises a plurality of chemically functionalized nano graphene platelets (f-NGP) or exfoliated graphite having a functional group that reversibly reacts with a lithium atom or ion. In a preferred embodiment, a lithium super-battery having a f-NGP positive electrode and Li4Ti5O12 negative electrode exhibits a gravimetric energy ˜5 times higher than conventional supercapacitors and a power density ˜10 times higher than conventional lithium-ion batteries. This device has the best properties of both the lithium ion battery and the supercapacitor.

Abstract translation: 一种锂电池，包括正极，负极，设置在两个电极之间的多孔隔板的锂电池，以及与两个电极物理接触的含锂电解质，其中正电极包括多个 的化学官能化纳米石墨烯片（f-NGP）或具有与锂原子或离子可逆反应的官能团的剥离石墨。 在一个优选实施例中，具有f-NGP正极和Li 4 Ti 5 O 12负极的锂超级电池表现出比传统超级电容器高约5倍的重量能量，并且功率密度比常规锂离子电池高约10倍。 该器件具有锂离子电池和超级电容器的最佳性能。

公开(公告)号：US07973794B2

公开(公告)日：2011-07-05

申请号：US12791583

申请日：2010-06-01

Applicant: Paul W. Forney ,  Rashesh Mody ,  Chau Bich ,  David Neff ,  Todd Miller ,  Kimson Q. Nguyen

Inventor： Paul W. Forney ,  Rashesh Mody ,  Chau Bich ,  David Neff ,  Todd Miller ,  Kimson Q. Nguyen

IPC: G06T13/00 ,  G06T15/70 ,  G05B11/01 ,  G06F15/16

CPC classification number: G06Q10/06 ,  G06F17/30873 ,  G06F21/105

Abstract: A method and system are disclosed for rendering animated graphics on a browser client based upon a stream of runtime data from a manufacturing/process control system. The graphics animation is based upon an animated graphic display object specification and runtime data from a portal server affecting an appearance trait of the animated graphic display object. The client browser receives an animated graphics description from the portal server specifying an animation behavior for an identified graphical display object. The client creates a data exchange connection between an animated display object, corresponding to the animated graphics description, and a source of runtime data from the portal server affecting display of the animated display object. Thereafter, the client applies runtime data received from the source of runtime data to the animated display object to render an animated graphic display object.

Abstract translation: 公开了一种基于来自制造/过程控制系统的运行时数据流在浏览器客户机上呈现动画图形的方法和系统。 图形动画基于来自门户服务器的动画图形显示对象规范和运行时数据，影响动画图形显示对象的外观特征。 客户端浏览器从门户服务器接收动态图形描述，指定识别的图形显示对象的动画行为。 客户端在与动画图形描述相对应的动画显示对象和影响动画显示对象显示的门户网站服务器的运行时数据源之间创建数据交换连接。 此后，客户端将从运行时数据源接收到的运行时间数据应用于动画显示对象以呈现动画图形显示对象。

公开(公告)号：US20060053650A1

公开(公告)日：2006-03-16

申请号：US10711346

申请日：2004-09-13

Applicant: George Manak ,  David Neff ,  Jerry Kuhn ,  Bruce Crist ,  Thomas Brummer ,  Markus Meyer ,  Markus Mauchle

Inventor： George Manak ,  David Neff ,  Jerry Kuhn ,  Bruce Crist ,  Thomas Brummer ,  Markus Meyer ,  Markus Mauchle

IPC: F26B19/00 ,  F26B3/08

CPC classification number: A23L7/157

Abstract: A method of manufacturing breadcrumbs, including the steps of forming a mixture, extruding the mixture to form loaves, surface drying the loaves in a first drying step, comminuting the loaves to form particles having a smaller size than the loaves, and further drying the particles in a second drying step to obtain the breadcrumbs.

Abstract translation: 一种制造面包屑的方法，包括形成混合物的步骤，挤出混合物以形成面包，在第一干燥步骤中表面干燥面包，粉碎面包屑以形成具有比面包片更小的颗粒，并进一步干燥颗粒 在第二干燥步骤中获得面包屑。

公开(公告)号：US20050126621A1

公开(公告)日：2005-06-16

申请号：US10922117

申请日：2004-08-19

Applicant: Thomas Dinwoodie ,  Colleen O'Brien ,  David Neff ,  Gianluigi Mascolo

Inventor： Thomas Dinwoodie ,  Colleen O'Brien ,  David Neff ,  Gianluigi Mascolo

IPC: F24J2/46 ,  F24J2/52 ,  H01L20060101 ,  H01L25/00

CPC classification number: H02S30/10 ,  F24S25/11 ,  F24S25/15 ,  F24S25/16 ,  F24S30/20 ,  F24S40/20 ,  F24S40/85 ,  F24S2025/01 ,  H02S20/23 ,  H02S20/24 ,  H02S40/00 ,  Y02B10/12 ,  Y02B10/20 ,  Y02E10/47

Abstract: Pressure equalization between upper and lower surfaces of PV modules of an array of PV modules can be enhanced in several ways. Air gaps opening into the air volume, defined between the PV modules and the support surface, should be provided between adjacent PV modules and along the periphery of the array. The ratio of this air volume to the total area of the air gaps should be minimized. Peripheral wind deflectors should be used to minimize aerodynamic drag forces on the PV modules. The time to equalize pressure between the upper and lower surfaces of the PV modules should be maintained below, for example, 10-20 milliseconds. The displacement created by wind gusts should be limited to, for example, 2-5 millimeters or less. For inclined PV modules, rear air deflectors are advised for each PV module and side air deflectors are advised for the periphery of the array.

Abstract translation: PV模块阵列的PV模块的上表面和下表面之间的压力均衡可以通过几种方式得到增强。 在PV模块和支撑表面之间定义的通向空气体积的空气间隙应设置在相邻的PV模块之间并沿着阵列的外围。 该空气量与气隙总面积的比例应该最小化。 应使用外围导风板来最小化PV模块上的气动阻力。 将PV模块的上表面和下表面之间的压力平衡的时间应保持在例如10-20毫秒以下。 由阵风产生的位移应限制在例如2-5毫米或更小。 对于倾斜的光伏组件，建议每个PV模块使用后部导风板，并建议侧面空气导流板用于阵列的外围。