About product

Oil and gas sector, construction, agricultural, medical, IT-objects, as well as decentralized energy industrial objects autonomous power supply.
Installation is intended for operation within the following conditions:
- ambient temperature from minus 500С to plus 500С (TCC1 climatic version according to GOST 15150).
- relative humidity at a temperature of 250C not more than 98%.
- height above sea level - no more than 1000 m.

Tactical characteristics

Rotor speed, n

60 000 r/min

Air volume for a turbo engine

74 m3/min

AC frequency

50 Hz

Fuel gas consumption nominal

60 nm3/h

Recovery rate

0,75

Power consumption at launch

Not more than 20 kW

Extended time-before-overhaul

60 000 hours

Operation duration without maintenance, at least

4 000 hours

Length * Width * Height

4 200 * 1 900 * 2 500 mm

Weight

4 300 kg

Description

The microgas turbine power plant with an electrical power of 200 kW operates on gaseous fuel (natural gas, APG) and provides high technical indicators (electrical efficiency of at least 27%), the modular layout opportunity into power units up to 10 pcs. (2 MW), high service interval (8 000 hours). Made on a gearless scheme, which provides a chance to ensure low noise level. These facilities use provides an opportunity to effectively resolve such issues as the autonomous power generation, reserving power supply, load reduction on the centralized power grid as well as provides additional power, which significantly increases the production processes efficiency in the implementation object. MGTU-200 has got a great ability to transform into a cogeneration unit, which gives a chance to resolve of oil and gas fields electricity and heat supply, production infrastructure facilities issues, etc.

The microturbine power plants design features, manufactured by JSC SDB «Turbina» provides a great opportunity to use associated petroleum gas as a fuel, which dramatically increases the environmental friendliness of the extraction process, eliminates flare utilization systems, and makes it possible to use electrical energy for its own needs.

MGTU-200 benefits

APG utilization

the opportunity to work on APG with the H2S level up to 7% while the condensed moisture is absent;


Production in the Russian Federation

the spare parts supply from Russia and power plants maintenance will save up to 50% of the maintenance budget


Service convenience

individual components and spare parts replacement without dismantling and repairing the entire module, periodic maintenance 1 time per year (8 000 hours)


Modularity

cluster supply up to 2 MW, low installation site requirements


Mode selection variability

in parallel with the network, autonomously, as the main and backup energy source


Loads elasticity

the ability to work in the load range from 0 to 100% without stopping and reducing the resource


Ecological indicators

the harmful substances emissions level in the energy installation production <9-15 ppm, noise level up to 70 DB


Autonomous power supply

microturbines function as a backup energy source and provide the remote control ability


Application in aggressive environments

special design: additional air filtration, all-weather or sea container, operation at low negative temperatures (up to -60°C)


Convenient system for remote monitoring and installation control

incl. via GSM module, radio module, etc.


High generated energy quality

the installation generates G3 class energy (according to GOST 503987-2010)


Cogeneration

thermal energy utilization increases the efficiency up to 92%

Main benefits

1. Recuperator

the recuperator use can significantly reduce the fuel amount consumed by thermal energy use from combustion products, which positively effects on efficiency increase


2. Combustion chamber

fuel-air mixture combustion of in the combustion chamber occurs at constant pressure and low operating temperatures, which results in harmful atmospheric emissions decrease


3. Special materials

gas turbine engine flow section elements are made of special heat-resistant and corrosion-resistant materials, which makes it possible to use various gaseous hydrocarbon fuel types with a fairly wide calorific values range including natural gas, associated petroleum gas