Recovered energy provides "clean" energy sources, such as solar energy, biomass and wind energy. As the name suggests, using recovered energy involves retrieving energy that would otherwise be lost.
The concept of using recovered energy is very simple. First, we identify and separate waste products into those that can be hazardous and those that can be recycled. After the waste has been sorted, it is incinerated, which releases enough heat to produce steam. This steam is then fed into the piping system to provide energy to drive turbines and generate power and/or to provide a "centralized heat supply" for a whole district, city, or an industrial site.
Recovered energy is our primary source of renewable energy. It includes heat given off by waste incineration, other sources of waste heat (CHP, production facilities) and combines them into a single heat and power supply network.
This type of energy has a number of benefits that help to avoid energy losses. The goal is to replace fossil fuels (such as gas, oil and coal) with an energy source that would otherwise be "lost". However, unlike its carbon analogs, recovered energy inherently does not create additional CO2 emissions. It is also a cheap source of energy that reduces production costs, provided that the facility where the energy is recovered is not far from the heated buildings or structures.
Biomass is organic matter of plant and animal origin that can provide an alternative energy source through combustion (wood fuel, etc.), anaerobic digestion (biogas), or chemical transformation (biofuel). The biomass used in thermal plants to produce either heat only or both heat and electricity (through cogeneration) is mainly produced from fuelwood.
We offer a comprehensive solution that addresses all local electricity needs, along with environmental and financial targets, existing facilities and locally available fuelwood.
