热水温度

设计由OpenPLC组成的温控系统，实现卫生热水温度的自动调节。

A temperature control system composed of Open_PLC has been studied in this article , in order to adjust the sanitation water temperature automatically .

串联热管在倾角为30°~40°、热水温度为60℃、热水流量为0.3m3/h、蒸发段长度为120mm、D型串联的条件下运行最佳。

The optimal operating condition of series-wound thermosyphons is the evaporative length of 120 mm , inclination angle of 30 °~ 40 °, hot water temperature of 60 ℃, flow rate of 0.3m ~ 3 / h , and series-wound type of D.

热水温度分层型蓄热槽设计

Design of stratified thermal - storage tank for hot water

地下热水温度为低温型，属于中小型地热田，可用于医疗、洗浴等。

The geothermal is low temperature and it belongs to small geothermal field .

热水温度可调节，并能保持恒定温度。

It can also preserve invariable temperature .

实验表明，提高水气比、提高进入湿化器的热水温度，都可以提高湿化器的湿化效果。

It showed that the humidifier would work better when increasing water-air ratio and the temperature of water injected .

对影响冷凝热利用的关键因素：冷凝温度、热水温度和空调负荷进行了分析，并论证了它们是如何影响冷凝热利用的。

Condensing temperature , water temperature , and air conditioning loads were analysed which are key factors influencing condensation heat utilization .

在保证要求提供热水温度（例如为55℃）的前提下，热回收系统只能提取到少量的冷凝热。

Fourth , if the required hot water temperature is 55 ℃, the hot recovery system can withdraw a little amount condensation heat rejection ;

实验数据显示：提高热水温度可以改善纸浆质量，细浆得率提高1.7%，白度提高2.8%ISO，卡伯值降低2.49。

The yield of screened pulp can be increased 1.7 % , brightness can be increased 2.8 % ISO , and Kappa number can be decreased 2.49 during pre-soakage with hot water .

热储层地热水温度为45~53℃，通过资料分析表明，其热水可用于地热取暖、洗浴、医疗保健及温室养殖等。

It is 45 ~ 53 ℃ for the hot water temperature of the layer hot store . Its hot water can be used for presenting warm , medical treatment and hothouse aquiculture .

介绍了热水温度分层型蓄热槽的设计依据及其影响因素，讨论了稳流器的设计原则，给出了温度分层型蓄热槽容积计算模型。

Presents the design bases and influencing factors of the thermal-storage tank , discusses the design principle of current stabilizers , and proffers a volume calculation model for the stratified thermal-storage tank for hot water .

所有模型体积相同，长、宽、高的尺寸不同，用于模拟分析入口温度和入口速度对于冷、热水温度分层和蓄热效率的影响。

All models the same size , length , width and height of different sizes . Used for simulation analysis on the inlet temperature and entry speed to the cold , hot water temperature stratification and the thermal efficiency of the regenerative effect .

溴化锂吸收式制冷循环用于太阳能空调需要解决的主要问题是循环系统要适合集热器所能提供的热水温度范围，和提高溴冷机本身性能并降低其制造成本。

The main problems to be solved with LiBr absorption chillers for solar energy air-conditioning are to raise their own performance properties and to decrease their manufacture costs , besides the cycle modification suitable for currently realizable hot water temperature at the inlet of the solar energy collectors .

辐射产生的热量不是大问题，虽然理论上来说，乏燃料池中的水温可以达到50℃，但在现实情况下，水温一般会介于25～35℃——这比大多数泳池的水温要高，但比浴缸里的热水温度要低。

The heat wouldn 't be a big problem . The water temperature in a fuel pool can in theory go as high as 50 ° C , but in practice it 's generally between 25 ° C and 35 ° C-warmer than most pools but cooler than a hot tub .

推荐采用热水回水温度控制方案。

Recommends the control scheme by monitoring the return water temperature .

太阳能热水器温度补偿控制器的研制

Development of the temperature compensation controller in solar heater

分析影响太阳能两级吸收式空调系统的整体性能的主要因素：集热器进出口热水的温度、各设备中溴化锂溶液的浓度与压力。

The factors that influenced the whole coefficient of performance of solar air-conditioning were analyzed .

随机时变参数动态矩阵控制算法及其在热水网温度控制中的应用

Dynamic Matrix Control Algorithm with Stochastic Time-varying Parameters and Its Application in Temperature Plant of Hot-water Networks

在湖里泡澡的人会感到热水的温度很舒服，心情很愉快，仿佛身处于冒着蒸汽的内陆海之中。

People bathe in its soothing heat and feel happy - seemingly ensconced in a steaming inland ocean .

制热量随热水出水温度的增加而减少，随环境温度的降低而减少。

At the heating mode , the heating capacity of the chiller decreases with the heated water temperature increasing or environmental temperature .

关闭排水管，打开热水，温度尽可能的高，让热水装满浴缸。

Close your drain and turn on the hot water as hot as it will go and let it fill your bathtub .

氧同位素估算的热水古温度为49～249℃（高温部分有后期岩浆的叠加扰动）。

Estimation of paleotemperature by oxygen isotope is 49-249 ℃ ( the part with higher temperature may be disturbed by later magmatic activities ) .

经理担心西尔维亚和我要求的热水的温度，安排四个女孩为我们两拿来合用的热水。

The management , worried about the quantities of hot water Sylvia and I might require , assigned four girls to bring us all we could use .

在中高渗透油层中，在尽可能提高热水驱温度的情况下，应控制注入水的流度。

In the middle-high permeability reservoirs , the fluid mobility of injected water should be controlled by raising the temperature of the hot water flooding as much as possible .

中低温地下热水中温度较高者可以先发电，再将排水作综合利用。

Those higher temperature geothermal water of the medium-low temperature geothermal zones can be used for power generation first and its discharge water can be further used for comprehensive purpose .

实际运行表明，应用本系统控制技术而设计的即热式电热水器温度控制系统工作稳定可靠，控制精度高，过渡过程时间短。

Practical running indicates that the temperature control system of electric heater designed using this system control technology is steady and reliable , with high control precision and short transition time .

本文介绍了螺杆式压缩机能量调节的一种模糊控制方法，依据温度变化的快慢因数估算测出下一个采样周期的冷冻水（热水）温度，利用预测值的偏差套用模糊规则表实现量化输出控制。

This paper introduces a fuzzy control method of screw compressor , that is according to the change rate of water temperature estimate the next cycle measuring temperature then count out the data output by using fuzzy table .

但是，地热水由于温度高和深循环过程中的水&岩相互作用，一般都含有一些特殊的化学成分，如硫化氢气体、氟，以及铅、砷、汞等重金属。

However , due to high temperature and water - rock interaction in deep-cycle process , geothermal water generally contain some special chemical composition , such as hydrogen sulfide gas , fluoride and lead , arsenic , mercury and other heavy metals .

该方法以实测温室室内温度和设定的目标温度之间的差值为基础，结合室外温度、光照、风速等计算热水管道温度。

This method , based on the difference between measured indoor temperature and the set temperature , and the other parameters , such as outdoor temperature , illumination , wind speed and so on , was applied to calculate the temperature of hot-water pipe .

针对在采暖供热设备能力允许的条件下如何提高实际采暖供热效率，通过理性的定性分析和探讨，认为应优先采用提高热水介质温度的方法，同时指出了相应的注意事项。

Regarding to the question that how to enhance actual heat supply efficiency under the permissible equipment capacity and based upon qualitative analysis and discussion the method that regard the hot water as priority media is proposed to enhance heating efficiency . Meanwhile , some matters needing attention are proposed .