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    • 4. 发明申请
    • APPARATUS FOR COMBUSTION OF BIOFUELS
    • 用于燃烧生物燃料的装置
    • WO2008049059A3
    • 2008-06-19
    • PCT/US2007081774
    • 2007-10-18
    • HESTIA HEATING PRODUCTS INCNELSON ERIC WMAST MARION L
    • NELSON ERIC WMAST MARION L
    • F23B30/04F23B40/02
    • F23B1/16
    • A heating apparatus for the combustion of highly variable biofuel feed stocks is generally provided. The apparatus generally includes a combustion chamber or burn box adapted to receive a regulated feed of biomass. The burn box includes a grate for receipt of a distributed mass of the regulated feed, and further includes an oscillating blade adjacent to the grate for agitation of the distributed mass of the regulated feed received thereby. The combustion apparatus for the production of thermal energy from a biofuel of the subject invention is preferably and further characterized by means for producing the distributed mass of the regulated feed of biofuel, and/or a burn box incorporating an oxygen manifold assembly adjacent to the grate.
    • 通常提供用于燃烧高度可变的生物燃料原料的加热装置。 该装置通常包括适于接收生物质的调节进料的燃烧室或燃烧箱。 燃烧箱包括用于接收调节进料的分布质量的炉排,并且还包括与炉排相邻的振荡叶片,用于搅拌由此接收的调节饲料的分布物质。 用于从本发明的生物燃料生产热能的燃烧装置优选并且进一步的特征在于用于生产生物燃料的调节进料的分布物质的装置,和/或包含邻近炉排的氧气歧管组件的燃烧箱 。
    • 6. 发明申请
    • PROCESS CONTROL METHODOLOGIES FOR BIOFUEL APPLIANCE
    • 生物设备过程控制方法
    • WO2008049057A3
    • 2008-08-21
    • PCT/US2007081769
    • 2007-10-18
    • HESTIA HEATING PRODUCTS INCNELSON ERIC WMAST MARION L
    • NELSON ERIC WMAST MARION L
    • F23B50/12
    • F23B1/38
    • Apparatus for controlling the operation of a biomass stove utilizes three proportional integral derivative (PID) controllers as part of a closed loop to control the fuel feed rate, the convection fan speed and the combustion fan speed. The first loop controls room temperature, the second loop controls the convection fan speed and the third loop controls the combustion fan. Appropriate temperature readings are utilized for the first and second loop. The third loop, which utilized feedback of the ratio between the heat exchanger temperature to the exhaust temperature, in addition to measuring these temperatures also references a library of look-up tables of such ratios over the entire heat range of the stove that have been correlated to combustion efficiency, as an input. This enables the operator to optimize the heat output for any operating point.
    • 用于控制生物质炉的操作的装置利用三个比例积分微分(PID)控制器作为闭环的一部分,以控制燃料供给速率,对流风扇速度和燃烧风扇速度。 第一回路控制室温,第二回路控制对流风扇转速,第三回路控制燃烧风扇。 适当的温度读数用于第一和第二回路。 除了测量这些温度之外,利用热交换器温度与排气温度之比的反馈的第三回路还参考了在已经相关的炉子的整个热范围内的这种比率的查找表的库 以燃烧效率为输入。 这使得操作者能够优化任何工作点的热量输出。
    • 7. 发明申请
    • PROCESS CONTROL METHODOLOGIES FOR BIOFUEL APPLIANCE
    • 生物燃料电器的过程控制方法
    • WO2008049057A2
    • 2008-04-24
    • PCT/US2007/081769
    • 2007-10-18
    • HESTIA HEATING PRODUCTS, INC.NELSON, Eric W.MAST, Marion L.
    • NELSON, Eric W.MAST, Marion L.
    • F23B50/12
    • F23B1/38
    • Apparatus for controlling the operation of a biomass stove utilizes three proportional integral derivative (PID) controllers as part of a closed loop to control the fuel feed rate, the convection fan speed and the combustion fan speed. The first loop controls room temperature, the second loop controls the convection fan speed and the third loop controls the combustion fan. Appropriate temperature readings are utilized for the first and second loop. The third loop, which utilized feedback of the ratio between the heat exchanger temperature to the exhaust temperature, in addition to measuring these temperatures also references a library of look-up tables of such ratios over the entire heat range of the stove that have been correlated to combustion efficiency, as an input. This enables the operator to optimize the heat output for any operating point.
    • 用于控制生物质炉的操作的设备利用三个比例积分微分(PID)控制器作为闭环的一部分来控制燃料供给速率,对流风扇速度和燃烧风扇速度。 第一回路控制室温,第二回路控制对流风扇速度,第三回路控制风扇。 第一和第二回路使用合适的温度读数。 除了测量这些温度之外,利用热交换器温度与排气温度之间的比率的反馈的第三回路还参考在已经相关的炉子的整个热范围上的这种比率的查找表的库 以燃烧效率为输入。 这使操作员能够优化任何工作点的热量输出。