▎ 摘　　要

NOVELTY - The thermo-electronic and thermal photovoltaic coupling generation system comprises an energy source (1), a thermion cathode, a thermion anode, a vacuum shell (4), a cathode lead (5) and an anode lead (6), where the energy source is used to heat the thermionic cathode. The thermion cathode emits the thermion and the photons. A hot electron cathode (2) and a hot electron anode (3) are oppositely and separately arranged in the vacuum shell through a vacuum gap (40). A heat-insulated anode is provided as a heat-emitting cell, where the cathode leads are connected to the thermion cathode of the thermion anode. The thermion cathode is provided as a carbon nano-tube thermion cathode or a graphene thermion cathode. The cathode lead and anode lead are penetrated out from the vacuum shell, and form a closed loop with an external load. USE - Thermo-electronic and thermal photovoltaic coupling generation system for the solar power generation technology and photo-thermal power generation. ADVANTAGE - Improves the output voltage and power generation efficiency of the thermal electronic and thermal photovoltaic coupling generation system. Reduces the influence of the hot electron anode temperature on the heat electron and the heat photo-voltaic coupling system operation. Improves utilization rate of the energy and reduces the waste of energy. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a working method for a thermal electron and thermal photovoltaic coupling generation system. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of a thermo-electronic and thermal photovoltaic coupling generation system. Energy source (1) Hot electron cathode (2) Hot electron anode (3) Vacuum shell (4) Cathode lead (5) Anode lead (6) Anode temperature control module (7) Waste heat module (8) Hot electron cathode coating (21) Hot electron anode coating (31) Anode body layers (32,33) Vacuum gap (40)