1) medium-high temperature
中高温
1.
Feasibility analysis of medium-high temperature sewage source heating system used in cold area;
寒冷地区应用中高温污水源热泵的可行性分析
2.
By analyzing the difference of thermal properties between medium-high temperature refrig- erant and regular refrigerant R134a,the simulation program was used to compare the performance difference of the heat exchanger using H.
通过中高温水源热泵试验台的实验数据同模拟计算结果的对比,验证了数学模型的准确性。
3.
According to the special requirements of refrigerants for medium-high temperature water source heat pumps, a mixture named HTR02 developed by us was discussed in this paper.
本文从中高温水源热泵对制冷剂的特殊要求入手,通过研究工质的性质、材料相容性、油溶性,开发了一种综合性能较好的混合工质HTR02。
2) moderately high temperature
中高温
1.
In this paper,a non-ozone depleting refrigerant for moderately high temperature heat pumps,named HTR04(High Temperature Refrigerant 04),was developed based on environmental protection and performance.
本文综合考虑了环保和中高温水源热泵对制冷剂的特殊要求,通过研究工质的热物理性质、材料相容性、油溶性,研发了一种臭氧层破坏潜能(ODP)为零的非共沸中高温热泵混合工质HTR04,并在中高温水源热泵试验台机组上进行了新工质的热工性能试验。
2.
The new moderately high temperature refrigerant HTR02 has comprehensive advantages in such aspects as refrigerant thermodynamic properties,material compatibility,oil resolvability and environmental indexes,being applicable to moderately high temperature heat pump.
中高温工质HTR02在工质热物性、材料相容性、油溶性、环保指标等方面的综合性能优越,为适用于中高温热泵的新型工质。
3) Moderate and high temperature
中高温
1.
In order to raise the utilization ratio of geothermal energy, lots of theoretical and experimental researches were been done about moderate and high temperature geothermal heat pump system (GHPS) which used the discharge water of geothermal between 40癈 and 45癈.
为提高地热能的利用率,本文针对以40℃~45℃地热尾水为低温热源的中高温地热热泵系统进行了理论及实验研究。
4) thermophilic/mesophilic
高温/中温
1.
Total organic acids and their spectrum in the process of two - phase thermophilic/mesophilic digestion of sewage sludge and other high strength organic wastes have been comprehensively studied in the paper.
本文对高温/中温两相厌氧消化反应器用以分别同时处理污泥与其它高浓度有机废物时有机酸总量及各脂肪酸数量的变化,进行了深入研究和探讨。
2.
Two-phase thermophilic/mesophilic(75℃, 2.
本文研究了高温/中温(75℃、2。
5) High Pressures and middle temperatures
高压-中温
6) location of the maximal temperature
高温中心
补充资料:中高温银导体浆料
分子式:
CAS号:
性质:是以超细银粉为导电相(含玻璃黏结剂)的导体浆料,烧结温度>300~850℃。包括汽车化霜器用银浆、太阳能电池用银浆,陶瓷电容器用电极银浆、热敏电阻器银浆等。由超细银粉与玻璃黏结剂、添加剂和有机载体混合调制而成。经丝网印制和中温或高温烧成导电良好的导电膜。用于导电回路、各种介质基片上电极;荧光字符显像管、等离子显像、炊用加热器、汽车FM天线和后窗化霜器;陶瓷电容器、热敏电阻、变阻器、PZT装置等的电极;以及太阳能电池聚光器和导体接线端头等。
CAS号:
性质:是以超细银粉为导电相(含玻璃黏结剂)的导体浆料,烧结温度>300~850℃。包括汽车化霜器用银浆、太阳能电池用银浆,陶瓷电容器用电极银浆、热敏电阻器银浆等。由超细银粉与玻璃黏结剂、添加剂和有机载体混合调制而成。经丝网印制和中温或高温烧成导电良好的导电膜。用于导电回路、各种介质基片上电极;荧光字符显像管、等离子显像、炊用加热器、汽车FM天线和后窗化霜器;陶瓷电容器、热敏电阻、变阻器、PZT装置等的电极;以及太阳能电池聚光器和导体接线端头等。
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