This work contains a thermodynamic analysis of a low-power cogeneration plant in three different modes of operation. The calculations of losses and efficiencies of the whole plant and all its components were performed. In the first mode cogeneration plant works with two steam generators with a fuel consumption of 142,4 t/h, a backpressure and condensing turbine, and also with a system for regenerative heating of feedwater. Fuel used in the plant is obtained from the processing of sugar cane which is milled in the mills. After being processed in the mills, sugar cane contains the moisture so it needs to be dried and then stored. Residues from this processing are called bagasse. This regime consumes the most fuel for the operation of the plant. Total losses are the highest because plant works with the most components. In the first plant operating mode, total energy losess amount to 80,714 MW while exergy losess amount to 170,198 MW. In this first mode total efficiency of the whole plant is the highest when energy efficiency amount 73,23% and exergy efficiency amounts to 38,06%. The first mode is used mainly during harvest and also when it is necessary to produce heat. In the second operating mode, the backpressure turbine and one steam generator are excluded from the plant. This mode is used when no heat is needed and when stock of sugar cane is low because fuel consumption is much lower. The plant works like a classic thermal power plant which means that it will have a much lower overall efficiency as proved in the calculations. In this operation mode energy efficiency amonuts to 31,28% while exergy efficiency amounts to 32,24%. For the whole plant in this operating mode total energy losses amounts to 62,889 MW when total exergy losses amount to 60,401 MW. During the third operating mode, the plant also works as a classic thermal power plant, but superheated steam is produced only by a solar collector. This mode is used during the part of the year with the highest solar radiation and the total efficiency of the whole plant is the lowest in such operating mode. Total energy losses in this operation mode amonut to 50,16 MW while exergy amounts to 9,973 MW but total energy efficiency amonuts to 19,67% while total exergy efficiency is 20,28%.