Low operational costs
- Improvement of inlet passage and spark plugs contributes to efficiency increase as compared with previous model.
- With the use of Miller cycle efficiency coefficient of units has increased.
Optimized for “island” operation and operation in conditions not corresponding to ISO
- Load increased is performed only in seven stages
- Fast and reliable electric supply connection in case of network failure or during the operation in an “island” mode
- TCG 2020 K1 is a type of TCG 2020 K gas engine but having power of 1000 kW, high efficiency-oriented with low capital investments.
High efficiency with small quantities of hazardous emissions
- Waste space reduction in the combustion chamber facilitates complete fuel burning.
- As a result fuel consumption and emissions of carbon oxides are decreased.
- It allows saving up 15% of gas a year and increasing equipment performance.
Growth of efficiency coefficient and service intervals
- Powerful ventilation system of the crankshaft provides the growth of efficiency coefficient due to application of fuel gases entering in the crankshaft from the combustion chamber.
- Due to optimized gas outlet out of the combustion chamber in the crankshaft and improved liquid and gaseous phase separation, the parameters of inlet air purity have been enhanced and turbocharger service intervals have been increased.
Full power at low costs
- Actual power optimization of TCG 2020K upon conditions not corresponding to ISO and optimum load increase due to best turbocharger parameters calculation with a wide characteristics range.
- New turbocharger TCR 16 for TCG 2020 with water-cooled bearing casing does not require special maintenance.
- Low maintenance costs for turbocharger allow reducing life cycle cost of gas engines/generators.
High reliability
- No more than two process shutdowns a year for preventive maintenance.
- The longest time interval before overhaul in this field.
- Usage of replacement components permits to save up to 75 % of time during the overhaul and as a result save funds.
- Gas engine works upon optimum frequency of 1500 rpm.
- Low rpm operation ensures stable and full fuel combustion. As a result we have small quantity of hazardous emissions and low spare parts wear.
