Turboprop-powered aircraft with thermal system

What is claimed is: 1. A turboprop-powered medium altitude long endurance aircraft, comprising: a gas turbine engine configured for providing propulsion power to an aircraft propeller; a heat scavenging apparatus configured for scavenging heat from the gas turbine engine; a heating apparatus comprising a first heat exchanger; a recirculating air path; a further heat exchanger in the recirculating air path; wherein the first heat exchanger is arranged to use the scavenged heat to heat air in the recirculating air path; the further heat exchanger comprises a heat-storage material having a melting point selected so as to be rendered solid when cooling and is arranged to cool air recirculating around the recirculation air path; and the recirculating air path is arranged to provide cooling and/or heating to the turboprop-powered medium altitude long endurance aircraft. 2. A turboprop-powered medium altitude long endurance aircraft according to claim 1 , wherein the heat scavenging apparatus comprises: a thermal blanket. 3. A turboprop-powered medium altitude long endurance aircraft according to claim 2 , wherein the thermal blanket comprises: capillary tubing. 4. A turboprop-powered medium altitude long endurance aircraft according to claim 1 , comprising: an engine casing, wherein the heat scavenging apparatus is placed on the engine casing. 5. A turboprop-powered medium altitude long endurance aircraft according to claim 1 , comprising: an engine air duct, wherein the heat scavenging apparatus is placed on or in the engine air duct. 6. A turboprop-powered medium altitude long endurance aircraft engine according to claim 1 , wherein the heating apparatus comprises: a circulation path for routing heat directly to an aircraft location where heating is to be performed. 7. A turboprop-powered medium altitude long endurance aircraft according to claim 6 , wherein heating is to be performed in a leading edge of an engine support pylon or a leading edge of an engine-carrying wing. 8. A turboprop-powered medium altitude long endurance aircraft according to claim 1 , wherein the further heat exchanger is configured to allow the heat-storage material to be cooled by a ground-based cooling apparatus during aircraft grounding. 9. A turboprop-powered medium altitude long endurance aircraft according to claim 8 , wherein the heat-storage material has a melting point selected so as to be rendered solid when cooling is to be performed by the ground-based cooling apparatus and/or by ram air. 10. A turboprop-powered medium altitude long endurance aircraft according to claim 1 , wherein the further heat exchanger is configured such that the heat-storage material will be cooled by ram air during aircraft flight. 11. A turboprop-powered medium altitude long endurance aircraft according to claim 10 , wherein the heat-storage material has a melting point selected so as to be rendered solid when cooling is to be performed by a ground-based cooling apparatus and/or by the ram air. 12. A turboprop-powered medium altitude long endurance aircraft according to claim 1 , wherein the heating apparatus comprises: a pressurised heat transfer liquid loop. 13. A turboprop-powered medium altitude long endurance aircraft according to claim 12 , wherein the pressurised heat transfer liquid loop is configured to transfer scavenged heat to aircraft parts for icing prevention. 14. A method of thermally managing a turboprop-powered medium altitude long endurance aircraft, the method comprising: providing a first heat exchanger, providing a second heat exchanger in a recirculating air path comprising a heat-storage material having a melting point selected so as to be rendered solid when cooling, scavenging heat from gas turbine engine, via the first heat exchanger, to heat air in the recirculating air path, using the second heat exchanger to cool air in the recirculating air path, and recirculating the heated and/or cooled air along the recirculating air path thereby performing heating and/or cooling of the turboprop-powered medium altitude long endurance aircraft. 15. A method according to claim 14 , comprising: cooling, with ground-based cooling air, the second heat exchanger; thereafter, passing recirculated air via the heat exchanger to cool the turboprop-powered medium altitude long endurance aircraft; and thereafter cooling, with ram air, the second heat exchanger. 16. A system for thermally managing a turboprop-powered medium altitude long endurance aircraft, the system comprising: a gas turbine engine configured for providing propulsion power to an aircraft propeller; a heat scavenging apparatus configured for scavenging heat from the gas turbine engine; a heating apparatus comprising a first heat exchanger; a recirculating air path; a further heat exchanger in the recirculating air path; wherein the first heat exchanger is arranged to use the scavenged heat to heat air in the recirculating air path; the further heat exchanger comprises a heat-storage material having a melting point selected so as to be rendered solid when cooling and is arranged to cool air recirculating around the recirculation air path; wherein the recirculating air path is arranged to provide cooling and/or heating to the turboprop-powered medium altitude long endurance aircraft; and a thermal control system unit configured to: scavenge the heat from the gas turbine engine to heat the air in the recirculating air path of the aircraft, and recirculate the cooled and/or heated air along the recirculating air path thereby performing cooling and/or heating of the turboprop-powered medium altitude long endurance aircraft.