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    • 2. 发明授权
    • Methods of combustion of powdered fuels and powdered fuel dispersions
    • 粉末燃料和粉末燃料分散体的燃烧方法
    • US09016216B2
    • 2015-04-28
    • US12464416
    • 2009-05-12
    • James K. McKnightEdward BacornKen W. White
    • James K. McKnightEdward BacornKen W. White
    • F23D1/00F23R5/00C10L5/36C10L5/44F02M21/12F02M29/02F03G3/00F03G7/00F23R7/00
    • F23R5/00C10L5/366C10L5/44F02M21/12F02M29/02F03G3/00F03G7/00F23D1/00F23R7/00Y02E50/10Y02E50/30Y02T10/34Y02T10/36
    • Methods of combustion include metering a substantially explosible powder into an oxidizing gas using a positive displacement powder dispersion device to suspend the powder in the gas and directing the powder in the gas to form a controlled stream of a moving explosible powder dispersion. In some embodiments, the method further includes igniting the dispersion with an ignition source to produce a stationary deflagrating combustion wave and sustaining combustion by continuing to meter the powder into the gas. In other embodiments, the method further includes adjusting a nozzle velocity of the dispersion to reflect properties of the dispersion to create a sustainable flame and igniting the dispersion to produce a stationary deflagrating wave of the dispersion. In other embodiments, the method further includes igniting the dispersion in a combustion area to produce a stationary deflagrating wave such that a conductive heat transfer from combustion brings the powder to combustion temperature.
    • 燃烧方法包括使用正位移粉末分散装置将基本上可爆炸的粉末计量为氧化气体,以将粉末悬浮在气体中并将粉末引导到气体中以形成可移动的可爆炸粉末分散体的受控流。 在一些实施方案中,该方法还包括用点燃源点燃分散体以产生固定的燃烧波,并通过继续将粉末计量到气体中来维持燃烧。 在其他实施方案中,该方法还包括调节分散体的喷嘴速度以反映分散体的性质以产生可持续的火焰并点燃该分散体以产生该分散体的固定的易燃波。 在其他实施方案中,该方法还包括点燃燃烧区域中的分散体以产生固定的爆燃波,使得来自燃烧的导电热传递将粉末引入燃烧温度。
    • 3. 发明申请
    • METHODS OF COMBUSTION OF POWDERED FUELS AND POWDERED FUEL DISPERSIONS
    • 粉末燃料和粉末燃料分散剂的燃烧方法
    • US20090214992A1
    • 2009-08-27
    • US12464416
    • 2009-05-12
    • James K. McKnightEdward BacornKen W. White
    • James K. McKnightEdward BacornKen W. White
    • F23N1/00F23D1/02F23N5/00
    • F23R5/00C10L5/366C10L5/44F02M21/12F02M29/02F03G3/00F03G7/00F23D1/00F23R7/00Y02E50/10Y02E50/30Y02T10/34Y02T10/36
    • Methods of combustion include metering a substantially explosible powder into an oxidizing gas using a positive displacement powder dispersion device to suspend the powder in the gas and directing the powder in the gas to form a controlled stream of a moving explosible powder dispersion. In some embodiments, the method further includes igniting the dispersion with an ignition source to produce a stationary deflagrating combustion wave and sustaining combustion by continuing to meter the powder into the gas. In other embodiments, the method further includes adjusting a nozzle velocity of the dispersion to reflect properties of the dispersion to create a sustainable flame and igniting the dispersion to produce a stationary deflagrating wave of the dispersion. In other embodiments, the method further includes igniting the dispersion in a combustion area to produce a stationary deflagrating wave such that a conductive heat transfer from combustion brings the powder to combustion temperature.
    • 燃烧方法包括使用正位移粉末分散装置将基本上可爆炸的粉末计量为氧化气体,以将粉末悬浮在气体中并将粉末引导到气体中以形成可移动的可爆炸粉末分散体的受控流。 在一些实施方案中,该方法还包括用点燃源点燃分散体以产生固定的燃烧波,并通过继续将粉末计量到气体中来维持燃烧。 在其他实施方案中,该方法还包括调节分散体的喷嘴速度以反映分散体的性质以产生可持续的火焰并点燃该分散体以产生该分散体的固定的易燃波。 在其他实施方案中,该方法还包括点燃燃烧区域中的分散体以产生固定的爆燃波,使得来自燃烧的导电热传递将粉末引入燃烧温度。
    • 5. 发明申请
    • POWDERED FUELS AND POWDERED FUEL DISPERSIONS
    • 粉末燃料和粉末燃料分散剂(POWDERED FUELS AND POWDERED FUEL DISPERSIONS)
    • US20090223612A1
    • 2009-09-10
    • US12464449
    • 2009-05-12
    • James K. McKnightEdward BacornKen W. White
    • James K. McKnightEdward BacornKen W. White
    • C06B45/02C06B43/00C06B47/10C06B39/00
    • C06D5/10C06B43/00C10L1/322C10L5/366C10L5/44Y02E50/10Y02E50/30
    • A powdered fuel includes a powder including a material consisting of particles having a particle size distribution median and other statistical characteristics such that less than about 5% of the particles by weight have a size larger than an explosibility size limit for the material. The particle size distribution median and other statistical characteristics are selected based on the use of the powder as a substantially explosible fuel. In one embodiment the material is biomass. In other embodiments, the material is a metal material, a metal alloy, a metal oxide, a plastic material, or a hydrocarbon-bearing solid. A powdered fuel dispersion includes an oxidizing gas and a powdered fuel dispersed in the oxidizing gas at a ratio such that the powdered fuel dispersion is explosible. Proper control of the moving dispersion produces a stationary deflagrating wave that substantially consumes the fuel to produce energy.
    • 粉末燃料包括粉末,其包括由具有粒度分布中值的颗粒和其它统计特性组成的材料,使得小于约5重量%的颗粒的尺寸大于材料的爆炸性尺寸极限。 基于使用粉末作为基本上可爆炸的燃料来选择粒度分布中值和其它统计特征。 在一个实施方案中,所述材料是生物质。 在其它实施例中,该材料是金属材料,金属合金,金属氧化物,塑料材料或含烃固体。 粉状燃料分散体包含氧化气体和分散在氧化气体中的粉状燃料,其比例使得粉末状燃料分散体是可爆炸的。 对运动色散的适当控制产生一个基本上消耗燃料以产生能量的静止的爆燃波。
    • 7. 发明申请
    • COMBUSTION DEVICES FOR POWDERED FUELS AND POWDERED FUEL DISPERSIONS
    • 用于粉末燃料和粉末燃料分散剂的燃烧装置
    • US20090223467A1
    • 2009-09-10
    • US12466873
    • 2009-05-15
    • James K. McKnightEdward BacornKen W. White
    • James K. McKnightEdward BacornKen W. White
    • F02B45/00F02B13/00
    • F23R5/00C10L5/366C10L5/44F02M21/12F02M29/02F03G3/00F03G7/00F23D1/00F23R7/00Y02E50/10Y02E50/30Y02T10/34Y02T10/36
    • An engine includes at least one cylinder, an intake valve, a conduit, a positive displacement powdered fuel dispensing device, and an oxidizing gas source supplying an oxidizing gas to the conduit. The cylinder is defined by a cylinder block having a bore, a cylinder head coupled to the top of the cylinder block, and a piston received in the bore of the cylinder block. The intake valve is communicatively coupled with the cylinder head. The conduit is communicatively coupled with the intake valve. The positive displacement powdered fuel dispensing device is communicatively coupled with the conduit. The positive displacement powdered fuel dispensing device meters a supply of a powdered fuel including a substantially explosible powder such that the intake valve admits a powdered fuel dispersion including the substantially explosible powder dispersed in the oxidizing gas at an explosible ratio such that the powdered fuel dispersion is explosible.
    • 发动机包括至少一个气缸,进气阀,导管,正排量粉末燃料分配装置和向导管供应氧化气体的氧化气体源。 气缸由具有孔的气缸体,联接到气缸体的顶部的气缸盖和容纳在气缸体的孔中的活塞限定。 进气门与气缸盖通信联接。 导管与进气阀连通地连接。 正排量粉末燃料分配装置与导管连通地连接。 正排量粉末燃料分配装置测量包括基本上可爆炸的粉末的粉末燃料的供应,使得进气阀允许包含基本上可爆炸的粉末的粉末状燃料分散体以分散在氧化气体中的可燃比例使得粉末燃料分散体为 爆炸性
    • 9. 发明授权
    • Combustion devices for powdered fuels and powdered fuel dispersions
    • 粉末燃料和粉末燃料分散体的燃烧装置
    • US08100095B2
    • 2012-01-24
    • US12466873
    • 2009-05-15
    • James K. McKnightEdward BacornKen W. White
    • James K. McKnightEdward BacornKen W. White
    • F02B45/00
    • F23R5/00C10L5/366C10L5/44F02M21/12F02M29/02F03G3/00F03G7/00F23D1/00F23R7/00Y02E50/10Y02E50/30Y02T10/34Y02T10/36
    • An engine includes at least one cylinder, an intake valve, a conduit, a positive displacement powdered fuel dispensing device, and an oxidizing gas source supplying an oxidizing gas to the conduit. The cylinder is defined by a cylinder block having a bore, a cylinder head coupled to the top of the cylinder block, and a piston received in the bore of the cylinder block. The intake valve is communicatively coupled with the cylinder head. The conduit is communicatively coupled with the intake valve. The positive displacement powdered fuel dispensing device is communicatively coupled with the conduit. The positive displacement powdered fuel dispensing device meters a supply of a powdered fuel including a substantially explosible powder such that the intake valve admits a powdered fuel dispersion including the substantially explosible powder dispersed in the oxidizing gas at an explosible ratio such that the powdered fuel dispersion is explosible.
    • 发动机包括至少一个气缸,进气阀,导管,正排量粉末燃料分配装置和向导管供应氧化气体的氧化气体源。 气缸由具有孔的气缸体,联接到气缸体的顶部的气缸盖和容纳在气缸体的孔中的活塞限定。 进气门与气缸盖通信联接。 导管与进气阀连通地连接。 正排量粉末燃料分配装置与导管连通地连接。 正排量粉末燃料分配装置测量包括基本上可爆炸的粉末的粉末燃料的供应,使得进气阀允许包含基本上可爆炸的粉末的粉末状燃料分散体以分散在氧化气体中的可燃比例使得粉末燃料分散体为 爆炸性