Low operational costs
- A special piston’s construction for different compression allows using both biogas and natural gas as fuel.
- Improved gas exchange, optimization of camshaft, spark plugs due to the inbuilt prechamber.
- Equal load distribution on separate cylinders by cylinders’ balancing makes it possible to increase the level of total load and use all engine resources, which results in the maximum power and efficiency coefficient.
- New positive crankcase ventilation allows improving the process of reburning and increasing efficiency coefficient due to the use of gases entered into the combustion chamber.
- Permanent waste space reduction causes full gas mixture burning which results in decrease of fuel consumption and carbon oxides and residual hydrocarbon emissions, meanwhile efficiency coefficient is increasing.
Large service intervals
- The largest time interval before overhaul in this field
- With the use of replacement components it is possible to save up to 75 % of time during the overhaul and as a result save funds.
- Depending on the area of application, the use in the model range TCG 2016C water cooled turbocharges, which can lead to maintenance costs’ decrease.
- The absence of compressor pollution of gas-turbine blower due to improved liquid and gaseous separation phases also permits to expand service intervals.
Very low lubricant consumption
- TCG 2016C with grease oil consumption of 0.2 g/kwh is the leader among its competitors.
- Saving up to 50 % of greasing oil
Small capital investments
- Gas engines of compact design make it possible to reduce expenses for machinery room and peripheral equipment.
- Installation area is 50% smaller than one of similar assembly units.
High flexibility
- Equal electric performance both when using natural gas or biogas.
