| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Spent grain fuel product and process | US14756904 | 2015-10-28 | US20170121619A1 | 2017-05-04 | Geoffrey L. Larson; Brandon Michael Smith; Curtis Holmes; David D. Wilson |
| A process of making a fuel product from spent grain from a beer brewing process. In the brewing process, the grain is pulverized to a particle size whose mean particle size is approximately 0.25 mm to 0.6 mm with less than 1% greater than 2 mm. After the brewing sugars are extracted from the grain, the spent grain is pressed against a filter to reduce moisture below sixty-five percent (65%), and then the grain is dried to further reduce its moisture to less than ten percent (10%). The dried spent grain, after the aforementioned processing, is fed into a combustion chamber for a steam boiler that is used for beer brewing, and the spent grain is separated during combustion by agitation such as spraying of the grain in the combustion chamber. | ||||||
| 2 | Fuel feeding apparatus | US61198532 | 1932-05-18 | US2006357A | 1935-07-02 | KRAEFT HERMAN L |
| 3 | Furnaces for solid fuel | US3587489D | 1969-04-30 | US3587489A | 1971-06-28 | DEMAR VIKING VALENTIN |
| A FURNACE FOR BURNING SOLID FUELS SUCH AS BITUMINOUS COALS COMPRISES A GRATE, A FUEL INLET SHAFT WHCH COMMUNICATES ONLY AT ITS LOWER END WITH A COMBUSTION CHAMBER ABOVE THE GRATE BY MEANS OF A RESTRICTED OPENING BENEATH A SOLID TRANSVERSE WALL, THE LOWER END PORTION OF THE FUEL INLET SHAFT FORMING A DEGASSING CHAMBER. A GAS DUCT IS PROVIDED FOR CONVEYING GAS
FROM THE DEGASSING CHAMBER FOR DISTRIBUTION BENEATH A REARWARD SECTION OF THE GRATE. IN ACCORDANCE WITH THE INVENTION, THE BOTTOM END OF THE DEGASSING CHAMBER PORTION OF THE INLET SHAFT IS CLOSED. |
||||||
| 4 | Esnault-pelterie | US23494D | USRE23494E | 1952-05-20 | ||
| 5 | Heater | US8250136 | 1936-05-29 | US2100772A | 1937-11-30 | BECK VERNON S |
| 6 | Spent grain fuel product and process | US14756904 | 2015-10-28 | US20170247623A9 | 2017-08-31 | Geoffrey L. Larson; Brandon Michael Smith; Curtis Holmes; David D. Wilson |
| A process of making a fuel product from spent grain from a beer brewing process. In the brewing process, the grain is pulverized to a particle size whose mean particle size is approximately 0.25 mm to 0.6 mm with less than 1% greater than 2 mm. After the brewing sugars are extracted from the grain, the spent grain is pressed against a filter to reduce moisture below sixty-five percent (65%), and then the grain is dried to further reduce its moisture to less than ten percent (10%). The dried spent grain, after the aforementioned processing, is fed into a combustion chamber for a steam boiler that is used for beer brewing, and the spent grain is separated during combustion by agitation such as spraying of the grain in the combustion chamber. | ||||||
| 7 | Boiler or heater | US61339432 | 1932-05-25 | US1967038A | 1934-07-17 | MILLS JOHN H |
| 8 | Water heater | US1896725 | 1925-03-28 | US1679120A | 1928-07-31 | OTTO FOX |
| 9 | JPS4911091B1 - | JP3449069 | 1969-05-02 | JPS4911091B1 | 1974-03-14 | |
| 10 | 음식물쓰레기를 이용한 고열발생장치 | KR1020090099800 | 2009-10-20 | KR1020110042926A | 2011-04-27 | 박두헌 |
| PURPOSE: A high-temperature heat generating apparatus using food waste is provided to collect the latent heat of solid fuel in a combustion chamber because the carbonized ashes of the solid fuel are discharged after squishing. CONSTITUTION: A high-temperature heat generating apparatus using food waste comprises a combustion chamber(110), a raw material feeder(120), an ejector(130), an ejection quantity regulator(140), a discharger(150), and a high-temperature heat collector(160). The combustion chamber is divided into a combustion space(111), an ejection passage(118), and a storage space(119) and generates high-temperature heat by completely burning solid fuel. The raw material feeder supplies the solid fuel to the combustion chamber. When the carbonized ashes of the solid fuel are put into the combustion chamber, the ejector ejects the carbonized ashes of the solid fuel to the bottom of the combustion chamber. The ejection quantity regulator controls the discharged amount of the carbonized ashes, The discharger discharges the ejected carbonized ashes to the outside. The a high-temperature heat collector collects a high-temperature heat generated when the solid fuel is burned. | ||||||
| 11 | 수관식 보일러 | KR1020110137394 | 2011-12-19 | KR1020130070187A | 2013-06-27 | 표안설 |
| PURPOSE: A water-tube boiler is provided to performing a heat exchange smoothly by including a heat-exchanging header in the center of a vertical water tube, thereby improving the efficiency of the boiler. CONSTITUTION: A water-tube boiler comprises a horizontal combustion chamber(10), a horizontal first electric heat chamber(20), a hollow first heat-exchanging header(40), a plurality of vertical tubes, and a plurality of first horizontal water tubes. A combustion space is formed inside the combustion chamber, and a first opening unit(11) is formed in one end upper part of the combustion chamber. The first electric heat chamber is arranged on the top surface of the combustion chamber and connected to the combustion chamber via the first opening unit so that combustion gas generated in the combustion chamber flows. The first heat-exchanging header is arranged along the lower end edge portion of the first electric heat chamber on the top surface of the combustion chamber. The vertical water tube is penetrated through the first heat-exchanging header vertically and connected to the first heat-exchanging header. The first horizontal water tube is penetrated through the inner lateral surface of the first heat-exchanging header horizontally and connected to the first heat-exchanging header. | ||||||
| 12 | 화목 펠릿 겸용보일러 | KR1020160054515 | 2016-05-03 | KR101794527B1 | 2017-11-08 | 김규원; 정만수 |
| 본발명은화목펠릿겸용보일러에관한것으로, 더욱구체적으로는보일러본체(10); 보일러본체(10)의상부와주벽에형성되어서로연통하는물집(11); 보일러본체(10)의하측내부에형성한연소실(20); 연소실입구(21)에설치되는개폐판(31)과, 개폐판(31) 내면에설치되어연소실로개방되고상단에펠릿유입부(32)가형성되고바닥에펠릿버너(33)가장치되며송풍기(34)가구비되어펠릿공급장치(100)로부터공급되는펠릿을공급받아연소시키는펠릿연소부(30); 연소실(20) 바닥에형성된화목적재부(20a); 연소실(20) 바닥에장치되어내외로출입될수 있는재받이(22); 연소실(20) 상부측물집속에관로를배치한열교환부(40); 연소실(20)에서관로쪽으로열기유입구(23)를형성하여열기유입구(23)에서관로로형성되는제1회열실(50); 제1회열실(50)의반대측단부에형성한제2회열실(60); 제2회열실(60)의반대측보일러본체외면에형성한배기부(80); 제1회열실(50)과제2회열실(60) 사이에가로방향으로다열로형성한하부배기관(70a); 제2회열실(60)의상부에서배기부쪽으로가로방향으로다열로형성한상부배기관(70); 상부배기관(70)과연통되는배기부(80) 내에설치되어연소가스를배기연관(81)으로배출하는배풍기(82); 보일러본체(10)의열교환부(40)의상측물집속에설치되는온수관(90); 보일러본체(10)에설치되어펠릿연소부(30)에펠릿을공급하는펠릿공급장치(100); 를구비하여구성됨으로써, 보일러본체에펠릿공급장치를설치하고연소실내부의공간을넓게형성함으로써화목이나펠릿을사용자가선택적으로동시혹은교차투입하여연소시킬수 있어서사용자의편리성이증대되고펠릿과함께화목도사용할수 있으므로비용이절감되며열효율이향상되는이점이있다. | ||||||
| 13 | 펠릿을 이용한 스팀보일러시스템 | KR1020150025983 | 2015-02-24 | KR101535772B1 | 2015-07-24 | 도흥호; 정해성 |
| 본발명은펠릿을이용한스팀보일러시스템에관한것으로서, 펠릿을연소시켜연소열을생성하는연소부와상기연소부에서생성된연소열을제공받아스팀을발생시키는스팀발생부와상기스팀발생부에서스팀발생후 잔여의폐열을냉각시키는열교환부및 상기연소부에신선한공기를제공하여완전연소가이루어지도록하는송풍부로구성함으로써, 펠릿의완전연소에의해최적의효율성을가지도록하는데 그목적이있다. 이를위해본 발명은, 펠릿을제공받아연소열을생성하는연소부(10); 상기연소부(10)에서생성된연소열을통해물을가열시켜스팀이발생시키는스팀발생부(20); 상기스팀발생부(20)에서스팀발생시킨후 폐열을제공받아이를냉각시키도록하는열교환부(30); 및상기연소부(10)에서펠릿의연소할때 완전연소가가능하도록공기를제공하는송풍부(40)를포함하고; 상기연소부(10)는제1하우징(110)과상기제1하우징(110)에펠릿을공급하는펠릿공급수단(120)과, 상기제1하우징(110)에구성되어상기펠릿공급수단(120)을통해투입된펠릿을균일하게펼쳐지도록하는구동수단(130) 및상기제1하우징(110)에서펠릿을연소시킴에따라생성되는연소열을상기스팀발생부(20)로제공하는화구(118)를포함하는것을특징으로한다. | ||||||
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