Smart Energy Saving, Energy Storage, Energy Management with Smart Grid System
The traditional model of large thermal power stations will be replaced by the Internet of Energy: a highly connected system of responsive power generation from both suppliers and consumers resulting in Clean, Secure and Reliable electricity to power the homes, businesses and vehicles of tomorrow.
POWERWIN™-SMART³E is an Integrated Energy Saving, Energy Management and Micro-grid solution with Smart Grid control. It is forming an integral part in the future development of Smart Cities, enabling energy generated from sources such as wind and solar to be stored locally and ultimately more efficiently & distributed through small smart grid system.
By allowing ultimate flexibility to business users and electricity grid operators, POWERWIN™-SMART³E enables the evolution from the traditional model of electricity provision to a future smart system of integrated supply and consumption, resulting in lower energy costs, greater security of supply and the transition to a low carbon economy.
Driven by advances in technology and communications, the way we supply and consume electricity will look very different in the future.
POWERWIN™-SMART³E consists of;
☛ In build Smart Grid Tie Inverter
☛ Battery Bank
☛ Unique Dry type, Lossless Amorphous core HT Transformer Convert
☛ Powerwin™- Advance Power Saver
☛ Air conditioning system for outdoor cabinet.
☛ Outdoor Cabinet
Peripheral Plants;
☛ Solar Plant OR
☛ Wind Mills OR
☛ Hydro Power Plant OR
☛ Thermal Power Plant
BENEFICIARIES:
☛ Small Standalone District Power Source.
☛ Commercial & Industrial Segments
☛ Distribution Network Operators
☛ National Grids
POWERWIN™-SMART³E allows companies to save and store electricity locally and switch to this stored supply at any time. On site renewable generation can be integrated with POWERWIN™-SMART³E to provide the maximum cost benefit, this includes:
☛ Eliminating the need for separate inverters on renewable.
☛ Reducing the cost of initial renewable installations.
☛ Increasing the ROI levels of renewable installations.
☛ Storing energy generated by on-site renewable technologies.
☛ SHARING THE STORAGE
As more companies are looking to invest in electric vehicles, the need for convenient and fast charging is becoming apparent. However, there are network barriers, currently limiting how many electrical vehicle (EV) chargers can be in an area. Large numbers of EVs connecting to the National Grid will have a significant impact upon the Distribution Network, causing major network overload unless appropriate management systems and network upgrading occurs.Not only is this issue applicable to the grid operators, but also business owners who have the issue of a limited supply and face potentially costly supply upgrades.
☛ POWERWIN™-SMART³E EV
rapid/fast charging system utilizes battery storage to limit the amount of energy required from the network at any given time. The system doesn’t just provide feasible rapid charging services, it also offers the following benefits:
☛ COST REDUCTION
The system will store energy during night hours where there is usually excessive electricity generation (low cost) and use it during the day (high cost).
☛ SMART GRID INTEGRATION
The system behaves like a virtual power station, and is constantly in communication with the grid, allowing participation in schemes such as FFR (Firm Frequency Response) & EFR (Enhanced Frequency Response).
☛ UPS FUNCTIONALITY
Critical loads downstream of the supply provided for the charger will have full UPS protection for typically 30 minutes
☛ CO₂ REDUCTION
By diverting the use of energy from day time to night time, where generation is higher than demand, there is a substantial CO₂ saving. Environmental Ministry has agreed that for each kWh diverted from day usage to night usage, there is 0.49636kg C0₂ saved.
☛ RENEWABLE CONNECTIVITY
Renewable energy can be connected directly (direct DC) to charge the storage medium for future DSR or charging
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- ✓ Minimize distribution costs
- ✓ Reduction of reactive power charges
- ✓ Minimize transmission costs
- ✓ Average reduction of 15% of your electricity bill
- ✓ Maximum demand control
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- ✓ Average revenues of USD 170,000 per MW
- ✓ Export at peak market prices
- ✓ National Grid incentives (FFR, EFR)
- ✓ Maximize renewable generation incomes
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- ✓ Full UPS capabilities
- ✓ Storing excess renewable energy
- ✓ Control of maximum demand
- ✓ Charging electric vehicles
Models | POWERWIN™-SMART3E-50K | POWERWIN™-SMART3E-100K | POWERWIN™-SMART3E-250K | POWERWIN™-SMART3E-1M |
---|---|---|---|---|
Rating | 50 KW | 100 KW | 250 KW | 1000 KW |
Storage | Avg. 72kWh storage | Avg. 220 kWh storage | Avg. 432 kWh storage | Avg. 1000 kWh storage |
Size | 5 ft Container | 10 ft Container | 20 ft Container | 40 ft Container |
☛ RESIDENTIAL
- With the advent of domestic smart metering, residential consumers will increasingly be incentivized to shift their energy consumption to non-peak hours through energy management and domestic battery storage.
☛ SMART CITIES/VILLAGES
- The smart City idea conceptualized low cities of the future will incorporate technological developments into smart social infrastructure. Smart living allows greater connectivity and local energy management to create environment friendly sustainable urban development.
☛ VEHICAL CHARGING
- As lithium ion costs decrease, electric cars will increasingly provide the transport of the future. Highly integrated and connected consumers will also be able to utilize the battery storage of their vehicles to provide backup energy to their homes.
☛ INDUSTRIAL SEGMENT
- Business users are able to make significant cost savings by utilizing battery storage to power industrial sites during peak charging periods without having to alter production patterns. Sufficient battery storage will also negate the need for other forms of back up generation to provide onsite UPS.
☛ FUEL CELLS
- Fuel cells generate electricity through harnessing the chemical reaction of positively charged hydrogen ions with oxygen. In order to sustain the chemical reaction fuel cells require a continuous source of fuel and oxygen. As fuel cells are powered by hydrogen and oxygen they generate electricity with very little pollution, as the by-product of combining these elements is water.
☛ NATURAL GAS
- In order to transition to a low carbon economy, natural gas is increasingly seen as the fuel of choice for large power stations as it emits less carbon and other pollutants than coal fired stations. Gas power stations are also able to adjust outputs more rapidly than other forms of thermal generation.
☛ SOLAR GENERATION
- Solar PV is able to provide scalable clean energy from small scale household installations to grid scale projects. Allied with an effective storage medium, energy generated by solar PV throughout the day can be stored for discharge during the evening periods of peak demand.
☛ WIND GENERATION
- The India has the best natural wind resource in Asia to be exploited through onshore and offshore developments. Wind projects can be scaled from individual turbines providing power to industrial sites and communities to large multi-turbine projects feeding directly to the National Grid.
☛ UTILITY GRID
- Battery storage will increasingly provide balancing services to local and national electricity networks, alleviating imbalances in supply and demand and allowing for greater penetration of intermittent renewable energy generation on to the grid.