Photovoltaic-thermal solar energy collection system with energy storage

1 - 46 . (canceled) 47 . A solar energy system for producing dispatchable electrical energy, the system comprising: a concentrating photovoltaic-thermal solar energy collector that generates electrical energy e1 and collects thermal energy h1; a cold reservoir; a heat pump powered at least in part by electrical energy e1 to draw heat h2 from the cold reservoir; a hot reservoir heated at least in part with heat h1 and heat h2; and a heat engine configured to convert thermal energy in the hot reservoir to electrical energy e2. 48 - 62 . (canceled) 63 . The system of claim 47 , comprising: a heat transfer fluid HTF1 that, in operation, flows through one or more fluid channels in the photovoltaic-thermal solar energy collector to collect thermal energy h1; and a heat transfer fluid HTF2 that is heated by the heat pump to carry heat h2. 64 . The system of claim 63 , comprising a heat exchanger that, in operation, transfers heat between heat transfer fluid HTF1 and heat transfer fluid HTF2. 65 . The system of claim 63 , wherein heat transfer fluid HTF1 heated by the photovoltaic-thermal solar energy collector has temperature T1 and heat transfer fluid HTF2 heated by the heat pump has temperature T2, and T1 is greater than T2. 66 . The system of claim 63 , wherein heat transfer fluid HTF1 heated by the photovoltaic-thermal solar energy collector has temperature T1 and a heat transfer fluid HTF2 heated by the heat pump has temperature T2, and T2 is greater than T1. 67 . The system of claim 63 , wherein heat transfer fluid HTF1 heated by the photovoltaic-thermal solar energy collector has temperature T1 and heat transfer fluid HTF2 heated by the heat pump has temperature T2, and T1 is approximately equal to T2. 68 . The system of claim 47 , wherein, in operation, a heat transfer fluid HTF2 is heated by the heat pump to carry heat h2 and have a temperature T2 and then passes through one or more fluid channels in the photovoltaic solar thermal energy collector to collect heat h1 and thereby increase its temperature to a temperature T2′ greater than T2. 69 - 79 . (canceled) 80 . A method for generating dispatchable electrical energy, the method comprising: generating electrical energy e1 and collecting heat h1 using a concentrating photovoltaic-thermal solar energy collector; drawing heat h2 from a cold reservoir using a heat pump powered at least in part by electrical energy e1; heating a hot reservoir at least in part using heat h1 and heat h2; and generating electrical energy e2 using thermal energy in the hot reservoir. 81 - 95 . (canceled) 96 . The method of claim 80 , comprising: flowing a heat transfer fluid HTF1 through one or more fluid channels in the photovoltaic-thermal energy solar collector to collect thermal energy h1; and transferring heat h1 carried by heat transfer fluid HTF1 to a heat transfer fluid HTF3 via heat exchange; and heating the reservoir with heat transfer fluid HTF3 carrying heat h1. 97 . The method of claim 80 , comprising: flowing a heat transfer fluid HTF1 through one or more fluid channels in the photovoltaic-thermal energy solar collector to collect heat h1; and using a heat transfer fluid HTF2 to collect heat h2 from the heat pump. 98 . The method of claim 97 , comprising using a heat exchanger to transfer heat between heat transfer fluid HTF1 and heat transfer fluid HTF2. 99 . The method of claim 97 , wherein heat transfer fluid HTF1 heated by the photovoltaic-thermal solar energy collector has temperature T1 and heat transfer fluid HTF2 heated by the heat pump has temperature T2, and T1 is greater than T2. 100 . The method of claim 97 , wherein heat transfer fluid HTF1 heated by the photovoltaic-thermal solar energy collector has temperature T1 and heat transfer fluid HTF2 heated by the heat pump has temperature T2, and T2 is greater than T1. 101 . The method of claim 97 , wherein heat transfer fluid HTF1 heated by the photovoltaic-thermal solar energy collector has temperature T1 and heat transfer fluid HTF2 heated by the heat pump has temperature T2, and T1 is approximately equal to T2. 102 . The method of claim 80 , comprising using a heat transfer fluid HTF2 to collect heat h2 from the heat pump at a temperature T2 and then flowing heat transfer fluid HTF2 through one or more fluid channels in the photovoltaic solar thermal energy collector to collect heat h1 to thereby increase its temperature to a temperature T2′ greater than T2. 103 - 113 . (canceled) 114 . A system for generating dispatchable electrical energy, the system comprising: one or more concentrating photovoltaic-thermal solar energy collectors comprising a reflector for focusing incident solar radiation on a receiver, the receiver comprising: one or more photovoltaic cells that generate electrical energy e1; and one or more fluid channels through which a heat transfer fluid HTF1 flows and collects heat h1 produced in the receiver; a cold reservoir; a heat pump driven at least in part by electrical energy e1 to draw heat h2 from the cold reservoir; a hot reservoir to which heat h1 and heat h2 are transferred; and a heat engine comprising an organic Rankine cycle engine for converting thermal energy in the hot reservoir to electrical energy e2. 115 . (canceled) 116 . The system of claim 114 , comprising heat transfer fluid HTF2 heated by the heat pump to carry heat h2. 117 . The system of claim 116 , comprising a heat exchanger for transferring heat between heat transfer fluid HTF1 and heat transfer fluid HTF2. 118 . The system of claim 116 , wherein, in operation, heat transfer fluid HTF1 has a temperature T1 that is greater than a temperature T2 of heat transfer fluid HTF2. 119 . The system of claim 116 , wherein, in operation, heat transfer fluid HTF2 has a temperature T2 that is greater than a temperature Ti of heat transfer fluid HTF1. 120 . (canceled)