1) pressure swing and temperature changing
变压变温
1.
The new process on the recovery of vinyl chloride by pressure swing and temperature changing were introduced.
介绍了变压变温吸附回收氯乙烯精馏尾气的新工艺,与传统的回收工艺相比,新工艺具有DCS控制自动化程度高,运行稳定,操作方便,安全性能好等优点。
2) Variable temperature and pressure
变温变压
3) modified temperature and pressure
变温压差
1.
Review on explosion puffing drying by modified temperature and pressure for Hami-melon;
哈密瓜变温压差膨化干燥技术研究进展
2.
A central composite rotatable design (CCRD) was adopted to optimize the technology of explosion puffing drying at modified temperature and pressure for potatoes and the effect of water content after puffing temperature (X1), vacuum drying temperature(X2) and vacuum drying time(X3) on the water content after puffing(Y1), crispness(Y2), and color (Y3) were analyzed.
采用三因子二次回归正交旋转组合设计,对马铃薯变温压差膨化干燥工艺进行了优化研究。
3.
Using the technology of explosion puffing drying for Hami-melon at modified temperature and pressure, the effect of water content after pre-drying, puffing temperature, vacuum drying temperature and time, residence time and preesure difference on degree of water content after puffing, crispness, bulk density and color were analyzed.
采用变温压差膨化干燥技术,探讨预干燥后水分含量、膨化温度、抽空温度、抽空时间、停滞时间和压力差等因素对哈密瓜脆片产品的水分含量、脆度、膨化度和色泽的影响。
4) warm deformation
温压变形
1.
Dynamic recrystallization mechanism during warm deformation in 1420 alloy;
1420铝锂合金的温压变形及动态再结晶行为
5) pt condition change
温-压变化
6) variable temperature and pressure difference
变温压差
1.
Review on explosion puffing drying for fruits and vegetables at variable temperature and pressure difference;
果蔬变温压差膨化干燥技术研究进展
2.
Optimization of explosion puff drying process for citrus at variable temperature and pressure difference;
柑橘变温压差膨化干燥工艺优化研究
3.
As a method of drying,the explosion puffing drying at variable temperature and pressure difference is a new technology.
变温压差膨化干燥是一种新型的果蔬干燥技术,在胡萝卜加工中的应用还处于起步阶段。
补充资料:变温吸附
利用吸附剂的平衡吸附量随温度升高而降低的特性,采用常温吸附、升温脱附的操作方法。除吸附和脱附外,整个变温吸附操作中还包括对脱附后的吸附剂进行干燥、冷却等辅助环节。变温吸附用于常压气体及空气的减湿,空气中溶剂蒸气的回收等。如果吸附质是水,可用热气体加热吸附剂进行脱附;如果吸附质是有机溶剂,吸附量高时可用水蒸气加热脱附后冷凝回收;吸附量低时则用热空气脱附后烧去,或经二次吸附后回收。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条