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    • 4. 发明授权
    • Pesticidal combinations
    • 杀虫组合
    • US08946122B2
    • 2015-02-03
    • US13143850
    • 2010-01-07
    • Jeffrey David FowlerColin Douglas Miln
    • Jeffrey David FowlerColin Douglas Miln
    • A01N25/00A01N59/00A01N25/04A01N25/08
    • A01N25/04A01N25/02A01N25/08A01N27/00A01N43/40A01N47/36A01N2300/00A01N43/70
    • Stabilized liquid agrochemical compositions are provided which comprise flowable non-aqueous dispersion concentrates comprising a continuous substantially water-miscible liquid phase, a dispersed water-immiscible liquid phase, and a colloidal solid. In one embodiment, the dispersed phase comprises at least one water-sensitive agrochemically active ingredient and the colloidal solid is disposed at the interface between the dispersed phase and the continuous phase. In another embodiment, the water-sensitive agrochemically active ingredient is a solid but is dissolved in an oily liquid present in the dispersed phase, or is a solid and is dispersed within the dispersed phase, or is a solid complex of an agrochemical with a molecular complexing agent and is dispersed within the dispersed phase. The compositions of the invention can be used directly or with dilution to combat pests or as plant growth regulators.
    • 提供了稳定的液体农业化学组合物,其包含可流动的非水性分散体浓缩物,其包含基本上可与水混溶的液相,分散的与水不混溶的液相和胶态固体。 在一个实施方案中,分散相包含至少一种水敏性农业化学活性成分,并且胶体固体设置在分散相和连续相之间的界面处。 在另一个实施方案中,水敏性农用化学活性成分是固体,但溶解在分散相中存在的油状液体中,或者是固体并分散在分散相中,或者是农药与分子的固体络合物 络合剂并分散在分散相中。 本发明的组合物可直接使用或稀释用于对抗害虫或作为植物生长调节剂。
    • 5. 发明授权
    • Low temperature inductive heating of subsurface formations
    • 地下地层低温感应加热
    • US08875788B2
    • 2014-11-04
    • US13083240
    • 2011-04-08
    • Scott Vinh NguyenThomas David Fowler
    • Scott Vinh NguyenThomas David Fowler
    • E21B36/00E21B43/24
    • E21B43/24E21B43/2408
    • Electrical current flow is induced in a ferromagnetic conductor providing time-varying electrical current at a first frequency to an electrical conductor located in a formation. The ferromagnetic conductor at least partially surrounds and at least partially extends lengthwise around the electrical conductor. The ferromagnetic conductor resistively heats up to a first temperature of at most about 300° C. Water in the formation is vaporized with heat at the first temperature. Subsequently, time-varying electrical current at a second frequency is provided to the elongated electrical conductor to induce electrical current flow at the second frequency such that the ferromagnetic conductor resistively heats up to a second temperature above about 300° C. Heat transfers from the ferromagnetic conductor at the second temperature to at least a part of the formation to mobilize at least some hydrocarbons in the part of the formation.
    • 在铁磁导体中感应出电流,该铁磁导体以第一频率向位于地层中的电导体提供时变电流。 铁磁导体至少部分地围绕电导体围绕并至少部分地延伸。 铁磁导体电阻加热到最多约300℃的第一温度。地层中的水在第一温度下被加热蒸发。 随后,将第二频率的时变电流提供给细长电导体以在第二频率处引起电流流动,使得铁磁性导体电阻加热至高于约300℃的第二温度。从铁磁体 导体在第二温度下至至少一部分地层,以在地层的一部分中调动至少一些烃。
    • 7. 发明申请
    • METHODS OF COMMISSIONING LIGHTING SYSTEMS
    • 调试照明系统的方法
    • US20110199020A1
    • 2011-08-18
    • US12708460
    • 2010-02-18
    • Robert HenigDavid FowlerDeepak NuluDavid Leonard
    • Robert HenigDavid FowlerDeepak NuluDavid Leonard
    • H05B37/02H05B39/00
    • H05B37/0245
    • A method of commissioning a lighting system is disclosed. A user is provided with a pointing device capable of emitting or returning a signal which can be received by detectors co-located with each fixture in the lighting system. The user can add a fixture to a group by aiming the pointing device at the fixture when the fixture is not assigned to the group, and the user can remove a fixture from a group in the same way when the fixture was previously assigned to the group. This commissioning method can be used with a lighting system comprising a central control unit and a plurality of fixtures comprising luminaires, optional control devices, and optional standalone sensors, wherein each fixture includes a co-located sensor capable of receiving the signal emitted by the pointing device, and a central control unit which can communicate bidirectionally with each fixture. Additional user gestures are disclosed together with methods for the central control unit to acknowledge gestures. Additional communications methods among components of the lighting system are also disclosed.
    • 公开了一种调试照明系统的方法。 用户设置有能够发射或返回信号的指示装置,该信号可由与照明系统中的每个固定装置共处的检测器接收。 当夹具未分配给组时,用户可以通过将定位设备瞄准固定装置来将组件添加到组中,并且当夹具先前被分配给组时,用户可以以相同的方式从组中移除固定装置 。 该调试方法可以与包括中央控制单元和包括照明器,可选控制装置和可选的独立传感器的多个固定装置的照明系统一起使用,其中每个固定装置包括共同位置的传感器,其能够接收由指示物发出的信号 装置以及可与每个夹具双向通信的中央控制单元。 公开了附加用户手势以及中央控制单元承认手势的方法。 还公开了照明系统的组件之间的附加通信方法。