Smart Grid Battery Energy Storage Power Station
Smart grid, which is the direction of common power grid, is aimed at developing resources, transforming every link of power grid system such as power transmission, power storage, power distribution, power supply, power selling and power utilization, to achieve intelligence exchange and realize accurate power supply, complementary power supply. Smart grid will increase energy utilization ratio, take in renewable energy sources in the premise of ensuring power supply safety in order to save electricity cost and bring down environment stress.
Renewable Sources: Wind Power, Solar Power, Biomass Energy and Ocean Power Generation Characteristics
- Large scale
- Centralized development
- Short utilizing time
- Far from load center
Energy storage power station, which contributes to balance benefits of every parties, controls electric power resource, is the important premise of applying renewable energy sources and effective measure of realizing power grid interactive management. It will be impossible to realize smart power grids without energy storage.(details in the following picture)
GMB LiFePO4 battery storage system is made up by LiFePo4 battery pack, Battery Management System (BMS) and Power Conversion System (PCS) , and custom design for monitoring system, transformer, grid-connected switch cabinet and bidirectional active power & reactive power charging Watt-hour Meter
Battery Energy Storage System Working Sketch
Energy Storage Power Station
Energy Storage Station Monitoring System
Smart Grid EV Charging Station
Outstanding Features of Solar Power System
1. Nearly 100% power supply reliability, can fully adapt to various meteorological conditions
2. Equipment operation under auto control, can be unmanned and remote-control
3. Management and maintenance simply and conveniently, very low running fee.
4. The service life of main components over 20years
5. One-time investment, long-term benefits
Design Principles The design of Solar Power System is based on the cooperation between users and solar power technical company. Firstly, users need to provide some specific operating requirements, such as:
1. Utilization voltage, power
2. Working hours of each day, reserve time for continuous cloudy day
3. Whether backup mains supply available
4. Territory of use for Solar Power System and climatological data
5. If use to supply power for applications, it would be better to inform the device name, data sheet or technical parameters.
After getting all these information, we’ll make Initial configuration and budget, then will contact users at anytime for more accurate communication during the design process to put forward rational advices.
Considering the one-time investment is a higher-cost, we should adhere to economical and practical principle to reduce the cost, adopting key components with high quality to extend the service life of whole system and improve the system reliability to reduce failure rate.
Considerations for Designing the Solar Power System
1. Where to use the system? How about the solar radiation condition?
2. How much is the load power?
3. How much are the load voltage, DC current or AC current?
4. How many hours loads keep working on each day?
5. If there is no sun exposure on cloudy day, how long will the system last supplying energy?
6. Loading position, is it the character of pure resistance, capacitance or inductance, how much is the starting current?
7. Demands for such system
8. Condition and environmental of installation field for system
9. The investment scale users want to bear. |
