子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | How to produce a wheat flour from ozone-treated seed and equipment | JP2001544504 | 2000-12-18 | JP2003516737A | 2003-05-20 | ベリ アラン; ベルトード オリヴィエ; イヴァン ジャン−クロード; ジュベール ジャン−マリ |
| (57)【要約】 【課題】本発明は、前もってクリーニングし、加湿した種子の粉砕を含む、高レベルの食物安全性を有する小麦粉を製造するための方法であって、上記粉砕に先立って又は同時に上記種子とキャリヤーガスから生産されるオゾン(好ましくは種子1kg当たり0.5〜20gのオゾン量)と接触させる方法に関する。 | ||||||
| 22 | Bioprocessing of crop grain | JP2009500666 | 2007-03-21 | JP5076040B2 | 2012-11-21 | デイビッド サウザン、マイケル; ロナルド ブラッドナー、ジョン; ドラント ウィローズ、ロバート; ヒュー ロバーツ、トーマス; ジェームズ アトウェル、ブライアン |
| 23 | Instant rice production method and its instant rice | JP2002329103 | 2002-11-13 | JP4099036B2 | 2008-06-11 | ジョン, ヒュー ケンダル,; ランヴァー, ビキ モヒンドラ,; 敬士 若林; 繁晴 金本 |
| 24 | Method for producing instant rice and instant rice | JP2002329103 | 2002-11-13 | JP2004159561A | 2004-06-10 | KANEMOTO SHIGEHARU; WAKABAYASHI TAKASHI; KENDALL JOHN HUGH; MOHINDRA RANVIR BIKI |
| <P>PROBLEM TO BE SOLVED: To obtain instant rice of polished rice having no loss in shape, and to provide a method for producing the same. <P>SOLUTION: Undermilled rice grain is primarily immersed, primarily gelatinized, a starch layer from which a core is removed by the primary gelatinization receives protection action by a residual rice bran layer and the rice grain is gelatinized without causing cracks on the surface of the rice grain. Then the rice grain is predried, subjected to finish rice milling, secondarily immersed and secondarily gelatinized. Since the rice grain surface layer has strength and is in a hardly collapsible state by the previous primary gelatinization process and the predrying process, the rice grain is completely gelatinized without causing cracks on the surface of the rice grain. In the following single grain formation process, no crack is formed on the surface of rice grain by single grain formation action and no loss in shape occurs. Then the rice grain is subjected to finish drying to complete instant rice of polished rice having no loss in shape and excellent qualities of appearance. <P>COPYRIGHT: (C)2004,JPO | ||||||
| 25 | JPS502740B1 - | JP5830169 | 1969-07-23 | JPS502740B1 | 1975-01-29 | |
| 26 | COMPOSITION FOR TREATMENT OF GRAIN, PULSE AND CEREAL CROP GRAINS BEFORE PROCESSING | US15568166 | 2015-06-15 | US20180132497A1 | 2018-05-17 | Valeriya Vladimirovna Petrichenko; Alla Evgen'evna Tumanova |
| This invention relates to agriculture, more specifically, to processing of grain, pulse and cereal crop grains, in particular, to a composition for the treatment of grain, pulse and cereal crop grains before processing wherein the composition includes a combination of enzyme preparations containing cellulases, cellobiohydrolases, xylanases, catalases, phytases, peroxidases, oxidoreduetases, laccases, esterases and antioxidants. An object of the present technical solution is to increase the output of flour or grit mills with a concurrent gain in the quality and dietary value of the milled products. | ||||||
| 27 | Oil bearing material crushing process | US14433100 | 2013-10-16 | US09371503B2 | 2016-06-21 | Etienne Le Clef |
| An oil bearing vegetable material crushing process including pre-heating and pre-drying the material to generate warm, partially dried oil bearing vegetable material. The partially dried material may then be surface heated rapidly, to generate warm and dried material having a weakened and non-adhering hull. The hull may then be mechanically cracked and removed to yield dehulled oil bearing vegetable material and hull. The dehulled material may be flaked to produce flakes. The flakes may be solvent extracted to generate solvent laden oil and solvent laden meal. The solvent laden meal produced may be desolventized to generate hot, wet meal. The wet meal produced may be dried to generate a hot vapor stream. The hot vapor stream generated by drying the meal is condensed in a condenser. The warm liquid medium produced in the condenser may be used to pre-heat and/or pre-dry the oil bearing vegetable material. | ||||||
| 28 | LIQUID DENSITY SEPARATION SYSTEM | US12019512 | 2008-01-24 | US20080202988A1 | 2008-08-28 | Kenneth Chen-Ting Wang; Juar Manuel Alyarez |
| The invention provides a separation system comprising a decanter, a supply tank, a first conduit between the decanter and supply tank, and an overflow reservoir in fluid communication with an upper portion of the decanter. Also provided is a method of separating particles. The method comprises providing a reservoir comprising a plurality of seeds in a liquid; providing an inlet flow of the fluid into the reservoir; adjusting the specific gravity of the liquid so that a first portion of the seeds float near the surface of the liquid and a second portion of the seeds sink near the bottom of the reservoir; providing an outlet flow of the fluid from a location proximal to the top of the reservoir, wherein the outlet flow removes the first portion of the seeds from the reservoir; and recycling the outlet flow of the fluid back to the inlet flow of the fluid. The system and method of the invention are particularly useful for separating seeds based on differences in specific gravity. | ||||||
| 29 | Corn Fractionation Process | US10581711 | 2006-02-07 | US20080121742A1 | 2008-05-29 | Glen Foster |
| A method of com fractionation wherein the resulting high starch concentration endosperm is subsequently used for ethanol production or dry milling is described. The method includes: providing substantially cleaned corn kernels, tempering the corn; screen processing to properly size the com fractions; density separation of the primary fractions; rolling and/or screening the products to produce three main fractions consisting of high starch Endosperm, high oil Germ and high fibre Bran. | ||||||
| 30 | Process for sonicating plant seeds | US10521077 | 2003-07-22 | US20060088630A1 | 2006-04-27 | Eugene Fox; Suhas Mehra; Aharon Eyal; Alexander Patist; Eugene Peters; Donald Shandera |
| There is described a process for sonicating a plant seed at an intensity of at least 95 W/cm2 and a frequency ranging from about 16 to 100 kHz. Also disclosed is a process for using the sonicated plant seed for production of either a starch product or a fermentation feedstock. Also disclosed is the use of the sonicated plant seed as a fermentation feedstock. | ||||||
| 31 | Decorticated finger millet (Eleusine coracana) and a process for preparing the decorticated finger millet | US10108185 | 2002-03-26 | US07029720B2 | 2006-04-18 | Nagappa Gurusiddappa Malleshi |
| The present disclosure provides decorticated finger millet (Eleusine coracana) and processes for preparing decorticated finger millet. In one implementation, decorticated finger millet is prepared by hydrating the millet near to its saturation moisture content and heat treating the hydrated millet to induce starch gelatinisation, rupture of granular structure, formation of lipid amylose complex and healing of cracks present in the endosperm. Controlled drying of the heat-treated millet may induce retrogradation of starch, hardening of endosperm tissue and reduction in the intactness of the endosperm with seed coat. This dried millet is moistened and short-tempered then passed through an abrasive mill to detach the seed coat. | ||||||
| 32 | Method and device for husking and degerminating cereals | US10533590 | 2003-01-27 | US20060053764A1 | 2006-03-16 | Othmar Gerschwiler; Walter Eugster; Urs Zwahlen |
| The invention relates to a method and a device for husking and degerminating grains of maize. The aim of the invention is to provide an efficient and simple degermination of maize. To this end, during a wet degermination process, cleaned maize is wetted, and then husked and degerminated, and directly supplied to the comminution stage. | ||||||
| 33 | Products comprising corn oil and corn meal obtained from corn | US10046856 | 2002-01-15 | US06723370B2 | 2004-04-20 | James Ulrich; Neal T. Jakel; Joel Ingvalson; Michael J. Tupy; Doug C. Kotowski; Francis Amore; Michael J. Beaver; Eugene J. Fox; Patrick Adu-Peashah; Troy T. Lohrmann |
| Methods of manufacturing and processing corn oil and corn meal obtained from whole corn are included in useful products. The corn oil is extracted from the whole corn to form the corn meal. The corn oil generally comprises levels of nutrients not found in commercially available corn oils, since most or all of the corn grain, rather than just the germ, is exposed to the extraction process. The corn grain generally includes the steps of flaking corn grain having a total oil content of from about 3% to about 6% and extracting a corn oil from the flaked corn grain. | ||||||
| 34 | Products comprising corn oil and corn meal obtained from high oil corn | US10422295 | 2003-04-24 | US20040058052A1 | 2004-03-25 | James F. Ulrich; Neal T. Jakel; Douglas C. Kotowski; Joel Ingvalson; Brent Aufdembrink; Michael J. Tupy; Eugene J. Fox; Michael J. Beaver; Stephan C. Anderson; Beth Anderson |
| Corn oil and corn meal obtained from high oil corn are included in useful products. The corn oil is extracted from the high oil corn to form the corn meal. The corn oil generally comprises levels of nutrients not found in commercially available corn oils, since most or all of the corn grain, rather than just the germ, is exposed to the extraction process. The corn grain generally includes the steps of flaking corn grain having a total oil content of at least about 6 wt. % and extracting a corn oil from the flaked corn grain. The corn oil is useful for making nutritionally enhanced edible oil or cooking oil, lubricants, biodiesel, fuel, cosmetics and oil-based or oil-containing chemical products. The extracted corn meal is useful for making enhanced animal feed rations, snack food, blended food products, cosmetics, and fermentation broth additive. | ||||||
| 35 | Method for producing fermentation-based products from high oil corn | US10369171 | 2003-02-18 | US06703227B2 | 2004-03-09 | Neal Torrey Jakel; James F. Ulrich |
| Corn oil and corn meal obtained from high oil corn are included in useful products. A method of producing fermentation-based products comprising combining corn meal remaining after the extraction of oil from whole high oil corn with water and an enzyme. This combination is incubated and then mixed with a micro-organism capable of fermenting a carbon source to produce fermentation-based products such as ethanol. | ||||||
| 36 | Nixtamalized corn flour process and apparatus improvement for recovering heat and reducing particulate emission from waste hot air | US10059331 | 2002-01-31 | US20030143308A1 | 2003-07-31 | Manuel J. Rubio; Roberto Contreras; Francisco Sosa |
| A process and apparatus improvement for energy and particulate recovery during the production of nixtamalized corn flour, by precooking with a lime solution to effect partial cooking, reduced energy use for pre-cooking and washing by recycling hot water. Next, moisture content is stabilized, and the corn is milled and dried in a super-heated stream of air with reduced energy consumption by recycling waste hot air. Dust trapping is performed on a portion of waste hot air which is reused for preheating combustion air. Wet scrubbing of the remaining waste hot air is performed where heated water is reused and exhaust air vented. Cooling and further drying of the dried-milled particles follows. A fine grind or flour is separated and recovered from the coarse grind which is also aspirated to isolate a hull fraction as corn waste along with particulate collected after entrapping and scrubbing waste hot air. Re-milling and sieving the coarse grind produces a corn flour for tortilla and the like. | ||||||
| 37 | Apparatus for improving head rice yield | US982903 | 1997-12-02 | US5845564A | 1998-12-08 | William D. Hurst |
| Dehulled brown unmilled rice is exposed to ozone gas in an ozone and air gas mixture. The exposed brown rice is stored for at least a day to sufficiently affect the bran before subjecting the exposed rice to a typical milling process. The milling of the exposed brown rice results in reduced breakage and thus increased head rice yield to economically attractive levels. | ||||||
| 38 | Shaped articles from polymeric materials | US12588737 | 1937-02-15 | US2137235A | 1938-11-22 | CAROTHERS WALLACE H |
| 39 | 곡물 탈곡 및 배아 제거 방법과 장치 | KR1020057007836 | 2003-01-27 | KR101048261B1 | 2011-07-08 | 게르슈빌러,오트마르; 오이크스터,발터; 츠바렌,우어스 |
| 본 발명은 옥수수 곡물의 탈곡 및 배아 제거 방법과 장치에 관한 것이다.본 발명의 목적은 간단하면서도 효율적인 옥수수의 배아 제거 방법과 장치를 제공하는 것이다. 이 목적을 위해서, 습식 배아 제거 공정 중에, 세정된 옥수수가 습윤된 다음에 탈곡되어 배아가 제거되며, 제분 단계로 직접 공급된다. 곡물, 탈곡, 배아 제거 | ||||||
| 40 | 곡물의마세및제분전처리의방법과장치 | KR1019950701343 | 1994-08-10 | KR100275666B1 | 2000-12-15 | 로만뮐러 |
| 본 발명은 제분을 위한 곡물의 전처리를 위한 새로운 방법과 장치를 제안한다. 상태조절전에, 곡물이 제 1 건조단과 제 2 습윤단에서 세척되고, 물이 제 2 단계이전 또는 도중에 첨가되며, 습윤세척을 위한 곡물이 1 - 120분 동안 중간저장된다. 연속작동하는 마세기가 건조세척과 습윤세척을 위하여 사용되며, 곡물은 이송수단에 의하여 유입구로부터 유출구측으로 강제이송되고 이송수단과 교대로 배열된 돌출부의 영역에 의항 통과되며, 마세과정에서 탈락된 물질이 로타의 회전운동으로 반복하여 분리제거된다. | ||||||
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