1) microwave heating equipment
微波加热设备
1.
n this paper EPDM microwave vulcanization system consisted mainly of microwave vulcanization behaviors,effect factors,microwave heating equipment and optimum compounding technique atc.
本文主要对乙丙橡胶微波硫化的特性、影响因素、微波加热设备和最佳配方设计等进行专题讨论。
2.
By the experiment of food preservation using the microwave heating equipment,for example,the experiment of milk sterilization preservation, it summarizes the law of the food s temperature increase, and finds out the connection between the speed of transmission and the difference in temperature of microwave heating equipment s entrance and exit.
本论文利用隧道式微波加热设备对食品保鲜(如牛奶灭菌保鲜)进行实验,总结出食品加热升温的规律,进而找出该微波加热设备中,传送带的传输速度v与物品进出口温差(T_2-T_1)之间的关系;并根据加工工艺要求,找到转速增量与物料进出口温度、目标温度之间的关系,从而确定了实现隧道式微波加热设备的实时在线控制的理论依据。
2) Microwave heating equipments
微波加热设备
1.
This paper presents a quantitative analysis of microwave leakage standards concerning microwave heating equipments through comparing "GB5959.
从定量计算角度对微波加热设备所要遵守的GB 5959。
3) microwave diathermy apparatus
微波透热设备
4) microwave equipments
微波设备
1.
This paper presents quantitative analysis of microwave leakage problems concerning 915 MHz microwave equipments through comparing "GB5959.
从定量计算角度,对有关915 MHz频段ISM微波设备所要遵守的《GB 5959。
5) heating equipment
加热设备
1.
The analytical method of accident about GP100-C_3 high frequency induction heating equipment;
GP100—C_3型高频感应加热设备故障分析
2.
Based on heat trasfer theory,the principle of enhancement heat trasfer prosess of heating equipment is analyzed.
阐述了远红外辐射涂料的特点及使用方法,分析了远红外辐射涂料强化加热设备传热过程的原理,论述了远红外辐射节能涂料的应用前景。
3.
The main heating equipments, such as the regenerative burner nozzle, regenerator, reversing arrangement, control system, was analysed in this papers.
并对主要加热设备如蓄热烧嘴 ,蓄热室 ,换向装置 ,控制系统进行了分
6) microwave heating
微波加热
1.
Preparation of lowly-hydrated zinc borate by microwave heating;
微波加热制备低水硼酸锌
2.
Preparation of high specific surface area activated carbon from tobacco stem with potassium carbonate activation by microwave heating;
微波加热碳酸钾法制备烟杆基高比表面积活性炭
3.
Mechanisms and significance of microfractures generated by microwave heating in sandstone reservoirs;
砂岩储集层微波加热产生微裂缝的机理及意义
补充资料:食品微波灭菌、加热、干燥、解冻设备
食品微波灭菌、加热、干燥、解冻设备
用途与简介: 司安工业微波设备适合于小包装食品、糕点、饼干、果脯、豆制品、熟食、快餐灭菌、加热处理;也适用于对海产品的干燥、面包、糕点、糖、干果、茶叶、烟叶、粮食制品的脱水、干燥、灭菌防霉处理;以及对各类速冻食品的解冻处理。
通过微波灭菌、加热、干燥、解冻处理、食品的保质期可延长3 – 6倍,不破坏原有的营养成份,色泽、口感和天然风味。与其它灭菌、加热、干燥、解冻设备相比,占地面积小,能耗降低28% - 100%,而且不产生“三废”污染,破坏生态环境。
司安工业微波设备的工作原理在于对以上物料的电磁场作用,引起物料内部水分子的极化,由于电磁场的频繁交变而引发水分子的剧烈运动,磨擦产生热量,从而达到灭菌、加热、干燥和解冻。
主要技术指标:
1、 工作频率:2540MHz或915MHz
2、 工作形式:连续式
3、 微波输出功率:由介质和产量设计
4、 电源:三相380V ±10%
5、 微波输出形式:矩形波导
6、 磁控管冷却方式:风冷或水冷
7、 输送带速度:0.5 – 8m /分
8、 微波泄漏:≤5mw/cm2(距开口5cm)
玻纤微波烘干设备:
型 号 | 工作频率 (MHz) | 微波功率 (KW) | 生 产 能 力 | 设备体积(m3) |
WSM2 – 1 | 2450±50 | 2.6 | 700袋(150g)袋/小时 | 4.5×0.75×1.2 |
WSM2 – 2 | 2450±50 | 3.9 | 700袋(150g)袋/小时 | 7×0.75×1.2 |
WSM2 – 3 | 2450±50 | 15 | 1500盒饭/小时 | 6.3×0.7×2 |
WSM2 – 4 | 2450±50 | 20 | 2000盒饭/小时 | 7×0.7×2 |
WSM1 – 1 | 915±25 | 20 | 提水量20kg /小时 | 6×1×2.5 |
WSM1– 2 | 915±25 | 40 | 提水量40kg /小时 | 8×1×2.5 |
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