[1]王增暉.精糖熟化筒倉技術探討[J].起重運輸機械,2019,(02):130-134.
 Discussion on the technology of refined sugar conditional silos[J].,2019,(02):130-134.
點擊復制

精糖熟化筒倉技術探討()
分享到:

《起重運輸機械》[ISSN:1001-0785/CN:11-1888/TN]

卷:
期數:
2019年02期
頁碼:
130-134
欄目:
設備技術
出版日期:
2019-02-28

文章信息/Info

Title:
Discussion on the technology of refined sugar conditional silos
文章編號:
1001-0785(2019)02-0130-04
作者:
王增暉
北京起重運輸機械設計研究院有限公司
關鍵詞:
font-size: 9.5pt">精糖筒倉結塊熟化技術
分類號:
U653.7
文獻標志碼:
B
摘要:
精制糖顆粒細小,儲存過程中易發生結塊現象,給產品質量和企業效益都帶來嚴重影響,如何防止精糖結塊是存儲過程中的關鍵問題,而熟化筒倉技術是解決結塊問題的有效可靠途徑。但就國內而言,精糖熟化筒倉技術尚不成熟。本文以砂糖結塊機理為切入點,分析精糖結塊影響因素,對精糖熟化筒倉技術原理,熟化筒倉技術系統組成,及相關參數設置等方面進行探討。
Abstract:
The refined sugar particles are fine, the caking phenomenon is easy to occur during the storage process. It has a serious effect both on the quality of the products the benefit of the enterprise. How to prevent the refined sugar caking is the key problem in the storage process, the conditional silo technology is an effective reliable way to solve the caking problem. But domestically, the technology of refined sugar conditional silo is not yet mature. This paper, taking the mechanism of sugar caking as the breakthrough point, analyses the factors of the refined sugar caking, discusses the technical principle of refined sugar conditional silo, the composition of the conditional silo system the setting of the related parameters.

相似文獻/References:

[1]楊福芹,李冬,趙順.集裝箱裝車機傾斜液壓缸的動力學分析及優化研究[J].起重運輸機械,2019,(02):52.
 Dynamic Analysis Optimization Research of Inclined Hydraulic Cylinder for Container Loader[J].,2019,(02):52.
[2]陳凱凱,安東,彭駿駿,等.DEM-FEM耦合仿真中載荷轉換方法研究[J].起重運輸機械,2019,(02):62.
 Method of Loadings Transformation in the DEM-FEM Co-Simulation[J].,2019,(02):62.
[3]蒲海洋,王棟,郭安福.一種側方位無避讓立體停車裝置的設計與分析[J].起重運輸機械,2019,(02):75.
 Design analysis of a three-dimensional parking device with no lateral avoidance[J].,2019,(02):75.
[4]吳西輝,金慶好,楊孟虎,等.潔凈環鏈電動葫蘆橋式起重機的設計[J].起重運輸機械,2019,(02):84.
 [J].,2019,(02):84.
[5]劉立成,趙章焰,魯恩順,等.基于攝影測量的鋼結構應力檢測方法[J].起重運輸機械,2019,(02):91.
 Steel structure stress detection method based on photogrammetry[J].,2019,(02):91.
[6]劉煒,鄭波.高速水霧幕流抑塵技術在抓斗式卸船機上的應用[J].起重運輸機械,2019,(02):108.
 Application of high speed water mist curtain dust suppression technology in grab ship unloader[J].,2019,(02):108.
[7]趙麗媛,張遠,崔學強.基于無線通訊設計的垃圾抓斗橋式起重機[J].起重運輸機械,2019,(02):112.
 [J].,2019,(02):112.
[8]李永.一種全自動軋輥搬運起重機的電氣關鍵技術[J].起重運輸機械,2019,(02):119.
 [J].,2019,(02):119.
[9]胡靜波,馮月貴,賈民平,等.基于RCM的門式起重機維修策略系統研究[J].起重運輸機械,2019,(02):121.
 Research on maintenance strategy system for Gantry crane based on RCM[J].,2019,(02):121.
[10]楊海.基于ADAMS的變幅連桿機構優化分析[J].起重運輸機械,2019,(05):67.
 The optimization analysis of luffing linkage mechanism abased on ADAMS[J].,2019,(02):67.

備注/Memo

備注/Memo:
收稿日期:2018-07-26
更新日期/Last Update: 2019-04-16
惊喜复活节免费试玩 贵州快三和值走势图彩经网 广西十一选五 吉林快3官方下载 安徽十一选五今天预测 新疆35选7的规则 新疆25选7 广东11选5精准计 体彩排列三字谜汇总 股票行情实时查询600864 竞彩足球比分旧版澳客网 今天吉林快三和值推荐 贵州11选5走势图删除 福建31选7最新开奖结果今天 北京股票期货配资 捷报比分足球即时比分下载 哈灵上海麻将官网