Why Choose TYCORUN Home Energy Storage System?
Professional Home Battery Energy Storage System from TYCORUN
TYCORUN offers comprehensive residential energy storage solutions that combine efficient battery technology and smart inverters to meet the diverse energy needs of different households.
TYCORUN’s home energy storage solutions support the storage and management of various energy sources, such as solar and grid power, helping users achieve energy independence, reduce electricity costs, and promote the development of green energy. These residential battery energy storage system are designed to create an efficient and environmentally-friendly energy lifestyle for modern households.
Energy Self-Sufficiency
TYCORUN’s battery storage system for home stores solar and grid power, enabling households to achieve energy self-sufficiency and reduce dependence on the grid.
Efficient Energy Saving
Through efficient charging and discharging and intelligent scheduling, the home battery energy storage system optimizes power usage by taking advantage of off-peak electricity rates, thus lowering electricity costs.
Environmentally Friendly
Supporting clean energy storage, the home energy storage solutions reduce fossil energy consumption and carbon emissions, contributing to a greener, low-carbon lifestyle.
Stable and Reliable
The home energy storage system provides backup power during grid failures or power outages, ensuring the continuity and safety of daily household electricity use.
Smart Management
Equipped with an intelligent management system, the system monitors power data in real-time, optimizes energy distribution, and enhances usage efficiency.
Modular Expansion
Using a stackable modular design, the home battery energy storage system can easily expand its capacity to meet the household's changing energy needs, adapting to different power loads and installation spaces.
Why Choose TYCORUN Home Energy Storage System?
Application for Home Battery Storage Storage Systems
Optimizing Energy Usage
Combined with solar photovoltaic systems, excess daytime energy is stored for use at night or during cloudy days, preventing waste.
Peak Shaving and Valley Filling
The system stores electricity during off-peak hours and supplies power during peak periods, helping users save on electricity bills.
Load Balancing
During peak electricity demand, the storage system compensates for load differences, reducing costs associated with peak power consumption.
Backup Power Function
Provides emergency power during outages or disasters to ensure normal operation of lighting and household devices.
Supports Electric Vehicle Charging
The storage system can charge electric vehicles, especially during nighttime when electricity prices are lower, optimizing energy use.
Off-Grid Family Solutions
Provides fully independent energy systems for remote areas or island households, integrating solar or wind power to meet daily living needs.
Case Study For TYCORUN Home Energy Storage Solution
Energy Self-Sufficiency Solution for Farm
- Client: A large farm in Xinjiang, China
- Solution: For the energy needs of a farm in Xinjiang, TYCORUN introduced a stackable energy storage system combined with solar power generation to provide stable power support. The system’s smart scheduling feature allows the farm to store electricity during off-peak periods, reducing electricity costs during peak demand and decreasing dependence on the grid.
- Implementation Results: After the system was deployed, the farm reduced its electricity costs by 30% and ensured continuous operation during power shortages or unstable grid conditions, improving its energy self-sufficiency.
Energy Independence Solution for Village
- Client: A remote village in Kenya
- Solution: To address frequent power outages, TYCORUN provided the village with a wall-mounted energy storage system combined with solar power to ensure the village could rely on stored energy for basic needs when the grid was unavailable.
- Implementation Results: After activation, the village achieved energy independence, reducing reliance on external grids and ensuring power supply for residents’ daily needs. The impact of power interruptions on the village was significantly reduced.
Residential Community Energy Management Solution
- Client: A residential community in Madrid, Spain (approximately 100 households)
- Solution: To address electricity costs during peak price periods, TYCORUN introduced a stackable storage system combined with the community’s solar system. The system stores energy during low-price periods and releases it during high-price periods to reduce electricity costs.
- Implementation Results: After implementation, the 100 households in the community reduced their annual electricity expenses by 20%, making energy use more efficient and increasing the overall energy independence of the community, reducing dependence on the grid.
Electrical Estimation for Home Energy Storage System
| Device | Power (Watt) | Time (Hour) | Energy Consumption per Day (Wh) |
|---|---|---|---|
| Air Conditioner | 1000 | 5 | 5000 |
| Refrigerator | 200 | 24 | 4800 |
| TV | 150 | 4 | 600 |
| Washing Machine | 500 | 1 | 500 |
| Water Heater | 3000 | 2 | 6000 |
| Vacuum Cleaner | 800 | 1 | 800 |
| Microwave | 1000 | 0.5 | 500 |
| Total | – | – | 18,200 |
Accurately estimating the electrical system for a home energy storage system is crucial when planning renewable energy integration. This involves calculating total daily power consumption and determining the required system capacity. Below is an example of typical power usage in a home: