1) twisted strip
扭带
1.
The fouling can be self-cleaned away by the twisted strip rotation driven by the evaporating solution in each heat transfer tube.
盐蒸发器自动清洗技术 ,是由循环流动的蒸发溶液带动加热管内的螺旋扭带旋转来实现的。
2.
In view of evaluation of capability of heat transfer enhancement,flow resistance and comprehensive perfor-mance through experiments,the result shows that the heat transfer enhancement of self-rotating twisted strip,twisted strip with oblique teeth,straight strip with elliptical teeth and steel spiral are 14%3,3%3,9.
在试验比较的基础上,评价了传热管内传热强化幅度的大小、阻力性能及综合性能,结果表明:在雷诺数为8 000~43 000的范围内,流体动力自转式光滑螺旋扭带、斜齿螺旋扭带、平齿带和钢丝螺旋线的传热强化幅度分别为14%、33%、39。
3.
The technique of twisted strips to autoclean fouling cannot be used because of the low flowing velocity and little rotational moment.
低流速冷却设备的水垢严重影响运行效率,自动清洗光滑扭带在低流速下的自转力矩太弱不能应用。
2) twisted tape
扭带
1.
When the temperature difference of heat transfer is over 20℃ or 25 ℃ , the produced driving force is more than 11 kPa, which can reliably make the twisted tape remove the fouling of long heat transfer tubes in heating chamber.
常压蒸发和加压蒸发中影响自然循环推动力大小的主要因素是汽化深度,在一般设计工况的传热温差下都可以达到11 kPa以上,满足带动长管加热室内光滑扭带自动清洗的动力需要,且加压蒸发更有优势;真空蒸发中汽化深度和出口动能损失两者的影响都大,难以形成大的自然循环推动力,需要采用旋流冲推齿形扭带自动清洗的短管加热室结构。
2.
Enploying self-rotating twisted tape to self-clean or antifouling continuously online and the special inlet bearing to distri.
用在线、连续、自动清洗防垢的自转扭带 ,并配套具有冷却水调匀功能的管口轴承是一种有效的解决办法 ,初步的工业应用试验结果表明节水节电的综合效益较
3.
It is pointed out that the insertion of a partial tube length twisted tape with a counter rotation in a spiral corrugated tube can be regarded as a highly effective combinatio.
文中对管内强化传热及复合强化传热技术进行了在紊流流动下的阻力和传热特性分析,并给出了几种复合强化传热技术的试验研究结果,提出螺旋槽管中插入旋向相反的部分管长扭带是行之有效、效果明显的复合强化传热技术。
3) twisted-tape
扭带
1.
A set of experimental tests were proceeded to investigate the characteristics of heat transfer and hydromechanics in the smooth round tubes with 3 twisted-tape inserts which had different structural parameters in order to research the technology of enhancing heat transfer in round tube.
为了研究管内强化换热技术,对3根不同结构参数的扭带插入光管的换热特性和流体动力学特性进行了实验研究。
2.
A set of experimental tests are proceeded to investigate the characteristics of heat transfer and hydromechanics in the smooth round tubes with 3 twisted-tape inserts which have different structural parameters in order to research the technology of enhancing heat transfer in round tube.
为了研究管内强化换热技术,对三根不同结构参数的扭带插入光管的换热特性和流体动力学特性进行了试验研究。
4) self-rotating twisted tape
自旋扭带
1.
By the kinematic analysis of flow,and the analysis of drive moment and resistance moment,the rotating speed expression of self-rotating twisted tape was deduced.
通过对换热管内流体的运动分析和自旋扭带的转动力矩与阻力矩分析,推导出扭带的转速计算式。
2.
This paper take the self-rotating twisted tape as the research object, the goal lies in seeking an enhanced component ,it may enhanced heat transfer and removing/preventing foul on line , low cost, easy installation and removal , simple manufacturing processing, and has the good work effect and the practical application value.
本文采用自旋扭带作为研究对象,目的在于寻找一种可以达到强化传热和在线防垢、除垢,成本低廉,安装拆卸方便,加工简单,且具有良好的工作效果和实际应用价值的强化元件。
3.
The self-rotating twisted tape inserted heat exchanger tubes can enhance heat transfer and prevent fouling on-line.
换热管内自旋扭带不仅可以强化管内传热而且具有在线防垢作用。
5) belt-distortion
胶带扭曲
1.
The paper introduces the solution methods of belt-distortion on pipy belt-conveyor by analyzing the phenomenon and causation of belt-distortion on pipy belt-conveyor.
本文通过对管状带式输送机胶带扭曲现象及原因进行分析,介绍了处理管状带式输送机输送带扭曲的方法。
6) plastic twisted tape
塑料扭带
1.
0 m/s,and it is difficult to have self-clean by using plastic twisted tape.
冷饮与速冻工业的水冷器大多为列管式传热设备,管内冷却水实际运行的流速一般在0 5m s~1 0m s范围,无法采用塑料扭带进行自动清洗。
2.
The technique of plastic twisted tape c an not only self-clean away the fouling but also enhance heat transfer.
本文研究的旋流轴承强化的塑料扭带技术,可以在1。
补充资料:扭折带
扭折带
kink band
n iUZhedoi扭折带(k ink band)晶体受力时,如其取向不利于滑移和孪生,或者当晶体的塑性变形受到某些约束时而产生一种不均匀的局部塑性变形,形成一沦廓比较明显的楔形S状组织。诸如单晶体拉伸时受夹头的限制、不同滑移带的交叉、多滑移的同时开动、多晶粒金属相邻晶粒的相互制约、两相合金中两种相的变形不协调等,晶体就可能以扭折的方式变形。另外,拉伸或压缩时大应变的几何效应也能影响变形型式,这种行为在密排六方点阵金属或其他滑移系统少的晶体中尤为常见。 图1是密排六方点阵金属福单晶体受到压缩时的变形情况。晶体取向不利于底面(0。01)滑移,即此面上的分切应力为零时(图la),晶体不能产生滑移方式的变形。于是为了适应这种压缩外力而发生了不均匀的局部塑性变形—扭折。图lb是扭折示意图,由图可见,扭折变形是一种与孪生不同的变形方式,其扭拆区的晶体取向发生的变化是不对称的,点阵发生折曲,而其左右两侧点阵则发生弯曲,折曲区的上下界面由符号相反的两列刃型位错(见滑移)所构成,而每一个弯曲区则由同号位错堆积而成,取向是逐渐弯曲过渡的,但左右两侧的位错符号相反。由此可见,扭折区原是一个由其他区域运动而来的位错汇聚的区域,位借F 耐贩 a T7f b 图1六方点阵晶体中扭折带的形成示意图 。一变形前;b一变形后 l一(0001)面;2一未变形区;3一扭折带;4一位错 FF喻1珊 FF ab 图2伴随孪晶形成而产生的扭折带示意图 1孪晶;2一协调扭折带;3一位移的汇聚产生了弯曲应力,使晶体点阵折曲和弯曲,从而促使扭折带的形成。扭折带的形成对晶体有两种影响:首先,晶体变短了,从而有助于与外力相适应,因此,有时也称为协调扭折(aeeommodation kink);其次,扭折区内晶体的取向与未变形区的不同,在前一区内,只要应力达到临界切应力爪,即能产生滑移。 孪生变形时也能形成类似的扭折带(图2)。虽然产生了孪生变形,但试验机的压头强迫晶体端部保持原来取向。而为了过渡,则往往依赖于在晶体一侧或两侧形成协调扭折带。由图可见,孪生的作用使试样端部趋于产生相对位移(a),而扭折带的形成则使试棒适应千伏给年件的约束(b)。
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