Small scale storage for high quality electricity supplies to sensitive electronic equipment.
Medium scale storage for load leveling in buildings and factories, for storing electricity in renewable energy systems (solar, wind, small hydro, etc.), and for mobile supplies in boats and land vehicles.
Large scale storage at power stations and in the grid to meet demand peaks.
Today, power generating stations and the power transmission grid are built to meet peak demand. With the new electricity storage and voltage and frequency conversion technologies power stations and the grid will need to generate and transmit only the average demand (about half of the peak demand). They will therefore operate more efficiently due to more kWh per unit quantity of fuel and reduced power transmission losses. Expansion of the costly power generation and transmission infrastructure will be deferred and replaced by the less expensive technologies from Cellennium.
Renewable Energy and Small Scale Electricity Generation
Solar Photovoltaic (PV) Systems will benefit from the Cellennium electricity storage and conversion technologies in the maximum power point tracking of the variable output from the PV arrays and in the supply of fixed frequency alternating current to the power grid.
Wind Turbines generating alternating current will be able to run efficiently at variable rotation frequencies, depending on the strength of the wind, but still deliver synchronized fixed frequency AC to the power grid. Thus an obstacle to the harnessing of wind energy in light wind regimes such as Thailand will be removed.
Stand-alone Generator Sets equipped with the Cellennium storage and conversion technology will have greater fuel economy and greater engine life than traditional sets. They will run at adjustable steady speeds with fuel consumption proportional to the average load instead of at a fixed high speed with a wasteful dummy load to protect the engine against light loading. The energy storage will allow the system to deliver sudden peak demands, and prevent damage to the engine by sudden drops in the load.