These steam turbines are characterized by their high efficiency, meeting the latest European requirements for cycle efficiency and high operational flexibility. To meet these requirements, Doosan Škoda Power uses a wide range of unified components that are pre-designed for this purpose.
Regardless of the power plant size, we can supply machines with or without a steam reheating feature. We can build either fast-speed turbines (connected to the generator via a gearbox) or full-speed turbines (firmly connected to the generator) for both 50 Hz and 60 Hz grid frequencies.

A more advanced alternative is a combination of turbine parts running at different rotation speeds – i.e. a high-speed high-pressure part connected via a gearbox to the full-speed low-pressure part and the generator.

We supply solutions for new-built combined cycles, as well as add-ons to existing simple cycle gas-fired power plants.
Our turbines can be adapted to multi-pressure cycles with steam reheating, for industrial or thermal power plants, as well as to single shaft arrangements with a gas turbine.

A characteristic feature of these units is their high operational flexibility and the ability to perform fast load changes. Our multi-casing turbines can be designed with axial, radial or lateral exhaust, which can contribute towards the optimization of construction costs.

The waste-to-energy segment is gaining global importance and is both an opportunity and a challenge to power engineering companies. Doosan Škoda Power turbines are designed for a wide range of possible operating conditions, including operations with a high moisture content on the turbine exhaust.

For these applications, we supply steam turbines for power outputs from 5 MWe and above, mounted and transported on a common oil frame with a gearbox or generator.
Unified full-speed machines cover a power range of up to 140 MWe, while multi-casing turbines with double flow LP parts reach power outputs of 200 MWe and higher. The turbine can be equipped with a control extraction system for either process or water heating purposes.

We are also happy to supply other accessories (BOP) for machine halls, such as water- or air-cooled condensers, heaters or other required equipment.

Doosan Škoda Power’s engineering team can design a solution that maximizes the utilization of primary energy sources, which means that the generation of electricity and thermal energy is perfectly tailored to the client’s needs.

We provide a variety of solutions ranging from very simple back-pressure turbine models to multi-casing machines with reheating and a symmetrical heater connection system, and with the option to include an additional condensation unit facilitating operation during summer months.

A detachable clutch used for connecting the condensing part is another example of a feature that enables to widen the power output range, i.e. services that can be offered to the grid operator. We also engineer cogeneration and trigeneration units for both smaller consumers and large enterprises. We are ready to deliver solutions that utilize your resources with maximum efficiency.

For more than 50 years, Doosan Škoda Power has been manufacturing and installing steam turbines in nuclear power plants of up to 1,300 MWe. During this period, we have installed steam turbines with a total capacity 10 GW, which have been continuously supplying power and heat to households and cities.

We also provide long-term monitoring and upgrades of the equipment used in nuclear power plants. We pride ourselves in providing the utmost level of safety and quality of our products, which are designed to deliver, above all, high erosion resistance and maximum reliability.
Part of our product portfolio are also turbines for small nuclear units (SMR).

Installations in industrial plants are characterized by high variability of operating conditions where the steam turbine primarily supplies steam for industrial technologies. We have many years of experience with installations of our turbines in paper and steel mills, mines and petrochemical plants.

We deliver both backpressure and condensing machines, with one or more control extractions for process steam supply. Multi-casing machines are designed to fit into a system of steam supply to collectors as well as to maximize power generation at times of lower process steam requirements. These machines are characterized by great robustness, reliability and can be designed in accordance with the API standards.