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    • 2. 发明申请
    • FIRE RESISTANT LUBRICATING GREASE COMPOSITION
    • 耐火润滑脂组合物
    • WO2009148993A2
    • 2009-12-10
    • PCT/US2009/045789
    • 2009-06-01
    • CASTROL LIMITEDFACI, HocineCISLER, Robert, N.MEDRANO, Alex, M.
    • FACI, HocineCISLER, Robert, N.MEDRANO, Alex, M.
    • C10M169/06C10M2201/02C10M2207/1256C10M2207/1265C10M2207/1276C10M2207/1285C10M2219/0445C10N2210/01C10N2210/02C10N2230/00C10N2250/10
    • Fire resistant lubricating grease compositions resistant to self ignition and/or capable of self extinguishment when contacted with surfaces having temperatures of up to 9000C are disclosed. The invention provides for grease compositions comprising (1) base oil (which can be mineral, vegetable, synthetic or combinations thereof), (2) at least one grease thickener (selected from calcium sulfonates or lithium-based soaps), and (3) water as major components. The invention also provides a method for the preparation of the grease composition and a method for lubrication of bearings, gears, surfaces and other lubricated components comprising use of the grease composition of the present invention. The grease compositions of this invention display excellent fire resistance properties and still have outstanding physical and performance characteristics for applications where temperatures and loads are high, shock loading is significant and in the presence of significant amounts of water.
    • 公开了耐温自动点火的耐火润滑脂组合物和/或当与温度高达9000℃的表面接触时能够自熄的耐火润滑脂组合物。 本发明提供润滑脂组合物,其包含(1)基础油(其可以是矿物,植物,合成或其组合),(2)至少一种润滑脂增稠剂(选自磺酸钙或锂基皂),和(3) 水为主要成分。 本发明还提供了一种用于制备润滑脂组合物的方法和用于润滑轴承,齿轮,表面和其它润滑组分的方法,其包括使用本发明的润滑脂组合物。 本发明的润滑脂组合物显示出优异的耐火性能,并且对于温度和负载高的冲击载荷以及在大量水存在下的应用中,其具有突出的物理和性能特性。
    • 3. 发明申请
    • FRAMED SOLAR MODULE AND METHOD OF INSTALLING
    • 框架式太阳能模块及其安装方法
    • WO2009023454A2
    • 2009-02-19
    • PCT/US2008/072063
    • 2008-08-04
    • BP CORPORATION NORTH AMERICA INC.PLACER, Neil, V.GARVISON, Paul, L.
    • PLACER, Neil, V.GARVISON, Paul, L.
    • F24J2/52
    • H02S20/23F24S20/67F24S25/613F24S25/636F24S2020/13Y02A30/62Y02B10/12Y02B10/20Y02E10/44Y02E10/47
    • A framed solar module and a method for installing. The frame comprises contoured sides that can conform with the tiers of tiles on an inclined roof. The framed solar module can be installed with brackets which do not requireroof-penetrating fasteners. Each front bracket has a clip portion and a face portion. The front brackets are manipulated between two adjacent overlapping tiers of tiles until the clip portion of each bracket engages the rear of a tile. A first module is then attached to the front bracket, e.g. the module is positioned so that the faces of the front brackets will lie inside the front edge of the frame. A fastener, such as a bolt or other threaded faster, is passed through an opening in the front of the frame and is threaded into an opening in the face of the front bracket to secure the module to the bracket. Additional modules to form an array are installed in the same manner by using additional, properly spaced sets of front brackets. A back bracket (s) is attached to the back of the uppermost module to aid in securing the array to the roof.
    • 框架太阳能模块和安装方法。 框架包括可以与倾斜屋顶上的瓦片层相一致的轮廓边。 框架太阳能模块可以安装在不需要穿透紧固件的支架上。 每个前支架具有夹子部分和面部部分。 前支架在两个相邻的重叠层之间进行操纵,直到每个支架的夹子部分接合瓦片的后部。 然后将第一模块附接到前支架,例如。 模块被定位成使得前支架的表面将位于框架的前边缘内。 诸如螺栓或其它螺纹较快的紧固件通过框架前部的开口并且被拧入前支架的面中的开口中,以将模块固定到支架上。 通过使用额外的,适当间隔的前置支架组合,以相同的方式安装形成阵列的其他模块。 后支架连接到最上面的模块的后部,以帮助将阵列固定到屋顶。
    • 5. 发明申请
    • PROCESS FOR MANUFACTURING PHOTOVOLTAIC CELLS
    • 制造光伏电池的方法
    • WO2005083799A1
    • 2005-09-09
    • PCT/US2005/005667
    • 2005-02-23
    • BP CORPORATION NORTH AMERICA INCJORDAN, DavidWOHLGEMUTH, John, H.
    • JORDAN, DavidWOHLGEMUTH, John, H.
    • H01L31/0224
    • H01L31/068B23K26/364H01L31/022425H01L31/03529Y02E10/547
    • A process for making a photovoltaic cell using a semiconductor wafer doped with a first dopant, the wafer comprising a front surface and a back surface, the process comprising the steps of forming a first layer on the front surface of the wafer, the first layer comprising a second dopant of a conductivity type opposite the first dopant; depositing a surface coating on the front surface over the first layer; forming grooves in the front surface after depositing the surface coating thereon; adding a second dopant to the grooves; depositing a doping material on the back surface; treating the wafer having the doping material deposited thereon to form a back surface field, masking at least a portion of the back surface of the wafer after the treating; and adding a conductive material to the grooves to form an electrical contact.
    • 一种使用掺杂有第一掺杂剂的半导体晶片制造光伏电池的方法,所述晶片包括前表面和后表面,所述方法包括以下步骤:在所述晶片的前表面上形成第一层,所述第一层包括 与第一掺杂剂相反的导电类型的第二掺杂剂; 在第一层上的表面上沉积表面涂层; 在其上沉积表面涂层之后在前表面形成凹槽; 向槽中加入第二掺杂剂; 在背面沉积掺杂材料; 处理沉积有其上的掺杂材料的晶片以形成后表面场,在处理之后掩蔽晶片的后表面的至少一部分; 以及向所述槽中加入导电材料以形成电接触。