| 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 | 一种碳酸法工艺生产药用辅料蔗糖的方法 | CN201410797420.7 | 2014-12-22 | CN104611473A | 2015-05-13 | 肖凌; 周萱茂; 梁洪云; 李慧敏 |
| 本发明公开了一种碳酸法工艺生产药用辅料蔗糖方法,直接以甘蔗为原料,采用破碎—压榨—清净—蒸发—煮糖—分蜜—干燥的工序得到药用蔗糖,在所述的蒸发和煮糖工序之间增加一道硫漂上浮组合工序,进一步清理了蔗糖中各项杂质,提高了蔗糖的洁净等级,使蔗糖中硫酸盐、炽灼残渣、钙盐和重金属等含量达到了中国药典2010版的指标要求,而且碳酸法本身设备要求就不高、工艺简单,适合大规模生产蔗糖,解决了传统碳酸法工艺生产蔗糖达不到药用糖标准以及药用蔗糖难以规模化生产的问题。 | ||||||
| 2 | 一种红苕精糖的制备方法 | CN201610919499.5 | 2016-10-21 | CN106498099A | 2017-03-15 | 石传彪 |
| 本发明涉及一种红苕精糖的制备方法,包括以下步骤:(1)小麦发芽:将小麦置于30~33℃的水中,浸泡36~48小时后取出所述小麦,并将所述小麦于40~60℃的环境温度下发芽3~7天,取发出的麦芽干燥后,进行捣碎,得干麦芽粉;(2)制作红苕糖水:将红苕煮熟后捣碎,然后加水调成红苕糊,所述红苕与水的比例为100:30;向所述红苕糊中加入所述干麦芽粉,所述红苕与所述干麦芽粉的比例为1:1.3~1.2,用33~40℃的小火加热发酵9~11小时,过滤后,获得滤液即为红苕糖水;(3)熬制红苕精糖:用40~30℃的中火熬制所述红苕糖水,熬制时间为2~3小时。本发明的有益效果为:工艺简单,可实现规模生产,保证较高的出糖率,颜色金黄透亮品质上乘。 | ||||||
| 3 | 一种去腥鱼腥草汁糖的制作方法 | CN201610888652.2 | 2016-10-12 | CN106480232A | 2017-03-08 | 马瑞忠; 张晓玲 |
| 本发明涉及食品加工技术领域,具体涉及一种去腥鱼腥草汁糖的制作方法,该方法包括以下步骤:先将新鲜鱼腥草绞碎成泥状,得到鱼腥草泥,接种碱性磷酸酶酶解,将酶解液用于制作鱼腥草汁糖,本发明去腥彻底,同时在去腥过程中还能产生大量的可溶性糖,使鱼腥草中原有营养物质得到丰富。 | ||||||
| 4 | 甘蔗准备单元和运行方法 | CN201180071358.8 | 2011-12-22 | CN103562938A | 2014-02-05 | A.K.姆; B.B.斯里尼瓦萨; A.巴德维 |
| 描述了一种运行甘蔗准备单元的方法。方法包括为甘蔗准备单元的多个运送器的至少一个运行变量提供工作范围;估计与至少一个运行变量的第一多个设定点对应的能量消耗;选择与至少一个运行变量的最少能量消耗对应的一个或多个第一设定点作为使用设定点;以及在使用设定点下运行甘蔗准备单元。甘蔗准备单元包括能量最少化单元,以实现本文描述的方法。 | ||||||
| 5 | ANLAGE ZUR HERSTELLUNG VON ALKOHOL AUS ZUCKERROHR | EP10737797.0 | 2010-06-29 | EP2449119A2 | 2012-05-09 | SCHORMÜLLER, Matthias |
| The invention relates to a system for producing alcohol from sugar cane, comprising a comminution stage (3) where the sugar cane is comminuted and an extraction stage (7) where the comminuted sugar cane is separated into cane juice and bagasse. The cane juice is fermented to an alcoholic mash in a fermentation stage (19). A distillation system (23) distills raw alcohol from the mash, which is dehydrated in a dehydration stage (27). The vinasse arising in the distillation system (23) is concentrated in a multistage evaporator arrangement (33) for further use, for example as fertilizer. The bagasse arising in the extraction stage (7) is burned in a high-pressure boiler (39). The high-pressure steam generated in the high-pressure boiler (39) drives a turbine (45) for generating electrical power in a generator (47). The steam exhaust of the turbine (45) heats a pre-concentration stage (15) concentrating the cane juice extracted from the sugar cane before said juice is fermented in the fermentation stage (19). The energy demand of the distillation system (23) is thus reduced. The exhaust steam of the pre-concentration stage (15) is divided into three parts, wherein a first part provides the energy required in the distillation system (23), a second part heats the dehydration stage (27), and a third part provides energy to the evaporator arrangement (33). | ||||||
| 6 | ANLAGE ZUR HERSTELLUNG VON ALKOHOL AUS ZUCKERROHR | EP10737797.0 | 2010-06-29 | EP2449119B1 | 2013-04-17 | SCHORMÜLLER, Matthias |
| 7 | METHOD FOR PRODUCING CELLULOSE-CONTAINING SOLID MATERIAL AND METHOD FOR PRODUCING GLUCOSE | US15579762 | 2016-06-10 | US20180171552A1 | 2018-06-21 | Yoshihito KOYAMA; Takao MASUDA; Teruoki TAGO |
| The method for producing a cellulose-containing solid material of the invention includes treating a botanical biomass in a mixed solvent of water and at least one alcohol selected from aliphatic alcohols having 4 to 8 carbon atoms, under condition A (the concentration of the raw material to be charged into the mixed solvent is 1% by mass or more and 50% by mass or less), condition B (the reaction temperature is 100° C. or higher and 350° C. or lower), and condition C (the reaction time is 0.1 hours or more and 10 hours or less), followed by solid-liquid separation after the treatment to give a cellulose-containing solid material. Accordingly, there are provided a method for producing a cellulose-containing solid material excellent in saccharification performance and a method for producing glucose from the cellulose-containing solid material. | ||||||
| 8 | Process and machine for conditioning sugar cane prior to their processing in the sugar factory | US3512564D | 1967-11-16 | US3512564A | 1970-05-19 | KERHAN ROBERTO HENDERSON |
| 9 | Loading mechanism | US49314921 | 1921-08-17 | US1437914A | 1922-12-05 | OSBERT SCRANTON HENRY |
| 10 | 魚鱗加工物の製造方法 | JP2017526344 | 2016-06-27 | JPWO2017002767A1 | 2018-04-12 | 門 雅莉; 松田 博幸; 小林 千人 |
| 魚鱗を短時間で低分子化して効率よく魚鱗加工物を得る魚鱗加工物の製造方法を提供することを課題とする。解決手段として、本発明に係る魚鱗加工物の製造方法は、魚鱗を飽和蒸気下で加圧蒸煮処理した後、大気圧に開放して爆砕する工程を含むことを特徴とする。前記加圧蒸煮処理の条件を変えることによって、異なる魚鱗加工物を得ることができる。この場合に、加圧蒸煮処理の処理温度を一定にし、処理時間を変えるか、もしくは処理時間を一定にし、処理温度を変えるようにすることができる。 | ||||||
| 11 | セルロース含有固形物の製造方法及びグルコースの製造方法 | JP2015118532 | 2015-06-11 | JP2017000093A | 2017-01-05 | 小山 啓人; 増田 隆夫; 多湖 輝興 |
| 【課題】糖化性に優れるセルロース含有固形物を得ることのできるセルロース含有固形物の製造方法、及び当該セルロース含有固形物からグルコースを得るグルコースの製造方法を提供すること。 【解決手段】本発明に係るセルロース含有固形物の製造方法は、水と炭素数4〜8の脂肪族アルコールから選ばれる少なくとも1種のアルコールとの混合溶媒中において、植物系バイオマスを下記条件の下で処理し、該処理の後、固液分離によりセルロース含有固形物を得るものである。 条件A:該原料の該溶媒に対する仕込み濃度が1質量%以上50質量%以下である 条件B:反応温度が100℃以上350℃以下である 条件C:反応時間が0.1時間以上10時間以下である 【選択図】なし |
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| 12 | CANE PREPARATION UNIT AND METHOD OF OPERATION | US14041138 | 2013-09-30 | US20140027547A1 | 2014-01-30 | Arun Kumar M; Babji Buddhi Srinivasa; Abhijit Badwe |
| Operation of a cane preparation unit is disclosed which can include providing a working range for at least one operating variable for a plurality of carriers of a cane preparation unit, estimating energy consumed corresponding to a first plurality of set points for the at least one operating variable, selecting one or more first set points corresponding to reducing (e.g., minimizing) energy consumed for the at least one operating variable as use set points, and operating the cane preparation unit at the use set points. | ||||||
| 13 | SYSTEM FOR AUTOMATION OF FLUCTUATION AND LEVELING OF TOP ROLLERS OF SUGARCANE MILLS | US12394848 | 2009-02-27 | US20100221081A1 | 2010-09-02 | Paulo Cesar de Andrade LEITE |
| A system for automation of fluctuation and leveling of top rollers of sugarcane mills for use in the automation of the systems of regulation of the pressing elements contained in the milling, preferably but not only, the top rollers of the mills used in distilleries and sugar mills and alcohol, from the implementation of electro-electronic devices that allow monitor and manage the pressure exercised on such rollers. | ||||||
| 14 | Apparatus for separating the components of plant stalks | US120773 | 1980-02-12 | US4312677A | 1982-01-26 | Sydney E. Tilby; Branko Vukelic |
| A separator for separating plant stalks into components includes a feeder in the form of opposite endless conveyors which propel stalks against a splitter. The splitter comprises two oppositely traveling, notched bands which are in contact to define a cutting edge. Stalk sections have at least their pith removed by a milling roll disposed opposite a slower traveling hold-back belt, the latter controlling the speed of the stalk sections. The milling roll includes removable blades which are held in place by wedges and pairs of blades are adjusted by tiltable members at each blade end. The tiltable members move the blades into contact with reference surfaces on the milling roll to define a proper blade location. Stalks are fed to the separator by being dropped onto a chute which guides the stalks into separate feed passages, the latter being maintained throughout stalk travel through the separator. The chute includes passage divider walls having cutters for separating partially cut stalks which may become hung-up thereon. The stalks travel to a spreader station at which vertically superimposed conveyor belts spread the stalks into a single layer. A method for releasing a stuck journal from a roll includes screwing an ejector bolt into an end of the journal until, in effect, it pushes off from a fastening bolt of the journal and against the journal itself to release the latter. | ||||||
| 15 | Method for preparing sugarcane stalks for subsequent processing | US294183 | 1972-10-02 | US3976499A | 1976-08-24 | Sydney Edward Tilby |
| A method for preparing a mass of randomly oriented slender can stalks for subsequent processing at a selected location. The method is intended to deliver the stalks in cleaned condition, chopped into uniform, relatively shorter lengths and aligned longitudinally in their direction of motion. | ||||||
| 16 | Methods and apparatus for preparing sugarcane stalks for subsequent processing | US35477573 | 1973-04-26 | US3873033A | 1975-03-25 | TILBY SYDNEY EDWARD |
| Improvements are described in methods and apparatus for preparing a trash-containing mass of randomly oriented slender cane stalks for subsequent processing. The overall method and apparatus described includes the steps of, and means for, conveying the trash-containing mass of randomly oriented cane stalks; raking the mass of stalks at some point during conveyed travel thereof; and aligning substantially all of the stalks longitudinally in the direction of travel so that they may be choppped into shorter lengths. At selected points, trash is removed from the mass of stalks. The improvements described include the steps of, and means for, conveying the stalks over a transfer drum which has a plurality of arms arranged to engage the mass of stalks to assist in raking and thinning the stalks as they pass over the drum, and to drop the stalks into a gap, or vertical discontinuity, in the conveyor means. As the stalks drop downwardly through the gap, a fluid stream preferably a gas such as air, is directed downwardly and laterally through the stalks to disengage trash from the mass of stalks. The directed fluid stream conveys trash entrained therein out of the discontinuity and against a series of vertically hanging free-swinging rod members which serve to screen trash from the directed fluid, with the trash dropping downwardly out of the directed fluid stream. The trash may then be conveyed away from the stalk conveying means for further disposal. The stalks which have dropped downwardly through the fluid stream are picked up again by a stalk conveying means and delivered to another detrashing station downstream of the transfer drum and upstream of the chopping apparatus. Here, the mass of stalks is conveyed between superposed rollers to a junction point. At this junction point the mass of stalks is deflected upwardly into an additional pair of superposed rollers. The additional pair of rollers is operable to move the mass of stalks along an upwardly inclined path of travel, while trash such as rocks engage the lower one of the additional pair of rollers at the junction and drop downwardly out of the mass of stalks. The aligned and detrashed mass of stalk material is suitable for being chopped into shorter, substantially uniform, lengths and subsequently being realigned, longitudinally split, and depithed.
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| 17 | Method and apparatus for preparing sugarcane stalks for subsequent processing | US3698459D | 1970-09-02 | US3698459A | 1972-10-17 | TILBY SYDNEY E |
| A method for preparing a mass of randomly oriented, slender cane stalks for subsequent processing at a selected location. The method is intended to deliver the stalks in cleaned condition, chopped into uniform, relatively shorter lengths and aligned longitudinally in their direction of motion. The method includes delivering the mass of stalks to a series of successively, more rapidly moving, conveyor means and subjecting the stalks to sudden vertical deflections at some of various junctions between adjacent ones of the conveyor means. At some of the junctions heavy debris (such as rocks) mixed with the stalks is caused to gravitate rearwardly and downwardly between adjacent ones of the conveyor means. At least one junction, leading portions of the stalks in the mass are also subjected to a force in a downstream direction aligned with their direction of travel upstream of the one junction. At another junction concurrently with vertical motion the canes are also subjected to a force in a direction downstream of the other junction, inclined transversely to direction of travel of the canes upstream of the other junction to exert a disentangling effect on the canes. The canes are progressively thinned out and aligned in the direction of travel and, at a point where substantially all the stalks are aligned in the direction of travel, they are chopped into shorter lengths while moving longitudinally. The chopped lengths are then realigned. At some point in their travel, the stalks are projected at high velocity across a vertical discontinuity in the conveyor means to cause the stalks to become partially airborne, at which time fluid is directed through the stalks to remove trash. Apparatus for preparing a mass of randomly oriented, slender cane stalks for subsequent processing which includes a series of separate conveyors successively receiving the stalks. Some of the conveyors in the series are arranged with their downstream ends spaced vertically above and overlapping the upstream ends of the next succeeding conveyors to define cascading junctions, between adjacent conveyors at which a vertical deflection is imparted to the stalks. At least one pair of successively related, cascading conveyors have their respective directions of travel aligned and another pair of successively related, cascading conveyors have their respective directions of travel transversely inclined. With this arrangement, the stalks are subjected to simultaneous vertical and accelerating forces, the latter being at separate times in different perpendicularly related directions, thereby facilitating disentangling and alignment of the canes. A chopping means is positioned adjacent one of the conveyor means positioned sufficiently downstream, at a point where almost all of the canes are travelling longitudinally. The chopping means cuts the stalks transversely thereof into uniform shorter lengths, while they are moving longitudinally. Realigning means positioned adjacent the chopping means realign the chopped lengths of stalk in parallel relation. At some point in their travel, the conveyor means project the stalks at sufficiently high velocity across a transversely extending, vertical discontinuity in the series of conveyor means to cause thE stalks to become at least partially airborne during which time fluid-directing means directs fluid through the stalks to remove trash.
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| 18 | Transfer mechanism for sugar canes | US14108526 | 1926-10-12 | US1677601A | 1928-07-17 | SCRANTON HENRY O |
| 19 | Cane preparation unit and method of operation | US14041138 | 2013-09-30 | US10066273B2 | 2018-09-04 | Arun Kumar M; Babji Buddhi Srinivasa; Abhijit Badwe |
| Operation of a cane preparation unit is disclosed which can include providing a working range for at least one operating variable for a plurality of carriers of a cane preparation unit, estimating energy consumed corresponding to a first plurality of set points for the at least one operating variable, selecting one or more first set points corresponding to reducing (e.g., minimizing) energy consumed for the at least one operating variable as use set points, and operating the cane preparation unit at the use set points. | ||||||
| 20 | TECHNOLOGIES FOR MATERIAL SEPARATION | US15632803 | 2017-06-26 | US20170291194A1 | 2017-10-12 | Erwin Bogner; Richard J. Gobel |
| A technology for material separation is provided. The technology enables an output of a first material from a rotary lifter. The technology enables a direction of a fluid stream onto the first material in flight based on the output of the first material such that the first material is separated into at least a second material and a third material. The technology enables a conveyance of the second material away from the rotary lifter. The technology enables a removal of the third material via a vacuum port. | ||||||
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