Combined heat and power system and method of operation

1. A method of operating a combined heat and power (CHP) system, the CHP system comprising a combustion system having a combustion chamber and a feed mechanism configured to feed solid fuel into the combustion chamber, the combustion chamber having a combustion air inlet and a combustion gas exhaust, wherein the combustion chamber is configured to receive a flow of an expanded heated secondary gas to the combustion air inlet for combustion of the solid fuel, the CHP system further comprising a proportional valve operably coupled in series with the combustion air inlet and operable to control the flow of the expanded heated secondary gas thereto, a particle separator operatively connected to the combustion chamber and configured to receive combustion gas therefrom, the particle separator having an inlet and an exhaust, the CHP system further comprising an exhaust plenum operatively connected to the exhaust of the particle separator and configured to receive combustion gas therefrom, the exhaust plenum including a secondary gas port operable to direct the expanded heated secondary gas to the exhaust plenum for mixing with the combustion gas to form mixed combustion gases, the CHP system further comprising a first heat exchanger operably coupled to the exhaust plenum and configured to receive the mixed combustion gases therefrom, the first heat exchanger operable to transfer heat from the mixed combustion gases to a compressed secondary gas, the CHP system further comprising a gas turbine having a compression section and an expansion section operably connected on a drive shaft, the gas turbine configured to receive a secondary gas at an inlet to the compression section and compress the secondary gas to form the compressed secondary gas and to direct the compressed secondary gas to an inlet of the first heat exchanger to form a heated compressed secondary gas, the gas turbine configured to receive the heated compressed secondary gas at an inlet to the expansion section to expand the heated compressed secondary gas to form the expanded heated secondary gas and generate work, wherein an output of the expansion section of the gas turbine is operably coupled via a first conduit to the secondary gas port of the exhaust plenum and via a second conduit to the combustion air inlet of the combustion chamber, the CHP further comprising a generator operably connected to the drive shaft of the gas turbine and configured to generate electricity with the work generated in the expansion section, the method comprising:

• initiating a combustion process in the combustion chamber and combusting the solid fuel with the expanded heated secondary gas and generating the combustion gas;
  
  regulating a temperature of the combustion gas by mixing the combustion gas with the expanded heated secondary gas to yield the mixed combustion gases;
  
  compressing the secondary gas using the compression section to form the compressed secondary gas;
  
  transferring heat from the mixed combustion gases to the compressed secondary gas in the first heat exchanger to form the heated compressed secondary gas;
  
  expanding the heated compressed secondary gas in the expansion section to form the expanded heated secondary gas and generating work thereby; and
  
  employing the generated work using the generator.