1) wind-solar hybrid
风光互补
1.
Development and application of control system for wind-solar hybrid power;
风光互补电源控制系统的开发与应用
2.
The Research & Development of Data Acquisition System for Grid-connected Wind-solar Hybrid Generation;
并网型风光互补发电数据采集监测系统的研究与开发
2) wind-solar photovoltaic hybrid
风光互补
1.
A technique for intelligent design the controller for a small wind-solar photovoltaic hybrid generate electricity system based ATtiny15L microcontroller and their characteristic was presented.
介绍了基于ATtiny15L的智能化小型风光互补发电系统控制器的硬件结构、工作原理及其软件设计方法,并运用仿真和实验手段进一步证明该系统的安全性和可靠性。
3) wind-solar complementary
风光互补
1.
It describes the development of wind-solar complementary single-phase sine wave power inverter and explains their hardware structure, operating principle, and method to design for charging and discharging.
结合实际论述了风能和太阳能在时间上和地域上的互补性,介绍了适用于风光互补的单相正弦波逆变电源的硬件结构、工作原理以及充放电控制的设计方法。
4) wind/solar hybrid power source
风光互补电源
1.
Design of miniature and effective wind/solar hybrid power sources based on average charging for each battery;
基于蓄电池分只均充的小型高效风光互补电源的研究设计
6) wind-solar-diesel complementary power supply
风-光-柴互补供电
补充资料:蛋白质互补作用
蛋白质互补作用
complementary action of protein
同时或在数小时内摄入不同的食物蛋白质,使其氨基酸互相补充,接近人体必需氨基酸比值。如鸡蛋、大豆、玉米蛋白质生理价值分别为94、57和60。如以70%大豆与30%鸡蛋混合,则混合蛋白质的生理价值提高到77;以25%大豆与75%玉米混合,蛋白质生理价值提高到75。
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