76 - 食品科学技术学报页
基本HTML版本
药
, 2005, 36(8): 1274 - 1276.
[2]摇 Marvin C H, Allan L. A comparison of ultrasonic extrac鄄
tion and soxhlet extraction of polycyclic aromatic hydro鄄
carbons from sediments and air particulate material inter鄄
national[J]. Journal of Environmental Analytical Chemis鄄
try, 1992, 49(6):221 - 230.
[3]摇
李婷
,
侯晓东
.
超声波萃取技术的研究现状及展望
[J].
安徽农业科技
, 2006, 34(13): 3188 - 3190.
[4]摇
曹雁平
,
刘佐才
.
植物成分超声波浸取研究现状
[ J].
化工进展
, 2005, 24(11): 1249 - 1252.
[5]摇
张斌
,
徐莉勇
.
超声萃取技术研究与应用进展
[ J].
浙江工业大学学报
, 2008, 36(5): 62 - 64.
[6]摇
刘玉德
,
张力
.
超声波振荡器在连续逆流螺旋浸取设
备中的应用研究
[ J].
食品工业科技
, 2009, 30(9):
259 - 261.
[7]摇 Liu Yude, Zhang Li. The study of the continous counter鄄
current spirial ultrasonic extracting apparatus[C]椅24th
World Congress of Food Science & Technology, Shang鄄
hai, 2008: 135 - 138.
[8]摇
罗登林
,
曾小宇
,
徐宝成
,
等
.
双频超声动态逆流高
效提取装置的设计与分析
[ J].
声学技术
, 2009, 28
(4): 488 - 490.
[9]摇
程伟
,
曹雁平
.
植物有效成分的连续逆流浸取技术研
究现状
[J].
食品科学
, 2007, 28(10): 616 - 620.
[10]摇
郭志雄
.
超声波连续逆流提取在中药生产中的运用
[J].
医药工程设计
, 2012, 33(4): 38 - 42.
[11]摇
刘玉德
,
曹雁平
.
连续逆流螺旋超声波浸取设备的研
究
[J].
食品与机械
,2009,13(3):62 - 64.
[12]摇
赵兵
.
循环超声提取技术应用潜力凸显
[N].
中国医
药报
, 2006 - 3 - 28(A08).
[13] 摇
赵兵
,
尹辉
.
循环超声技术及其在中药研发和生产
中的应用
[J].
中草药
, 2006, 37(1): 154 - 156.
[14]摇 Hou K, Zheng Q, Li Y, et al. Modeling and optimiza鄄
tion of herb leaching Processes[J]. Computers & Chem鄄
ical Engineering, 2000,24: 1343 - 1348.
[15]摇
储茂泉
,
古宏晨
,
刘国杰
.
中草药浸提过程的动力学
模型
[J].
中草药
, 2000(7): 504 - 506.
[16]摇 Koichi Nakade, Mikihiko Hiraiwa. Periodicity of cycle
time in a U鄄shaped production line with heterogeneous
workers under carousel allocation[J]. Journal of Service
Science and Management, 2009(6):265 - 269.
Design and Research of Production Line of
Continuous Cyclic Ultrasonic Extraction
LIU Yude,摇 WAN Luming,摇 ZHANG Yuan,摇 SHI Xuezhi,摇 WANG Tao
(
School of Material and Mechanical Engineering
,
Beijing Technology and Business University
,
Beijing
100048,
China
)
Abstract
: The equipment structure and characteristics of ultrasonic extraction circulation were intro鄄
duced based on the advantages and disadvantages of domestic ultrasonic extraction equipment. A set of
continuous cyclic ultrasonic extraction production line was designed combined with cycle ultrasonic
extraction technology. Material packaging system, material conveying system, ultrasonic extraction sys鄄
tem, extracting enrichment system, and recovery system were included in this production line. According
to the dynamic relationship of ultrasonic extraction of active ingredients from plant resources, the reasona鄄
ble process parameters were set, and actual production data were obtained. Meanwhile, the advantage of
the production line was compared with other ultrasonic extraction device.
Key words
: continuous extraction; cycle of ultrasonic; ultrasonic extraction; dynamics
(
责任编辑
:
檀彩莲
)
37
第
32
卷 第
5
期
摇 摇 摇 摇 摇 摇 摇 摇 摇 摇
刘玉德等
:
连续循环超声波提取生产线的设计和研究
