System and method for energy storage and recovery

What is claimed is: 1. An apparatus for storing and recovering electrical energy, the apparatus comprising: a reversible solid oxide electrochemical cell (RSOEC) that comprises a porous cathode, a porous anode, and an electrolyte capable of transporting oxygen ions; a reactor comprising a powder bed that includes tungsten, tungsten oxide, or combinations thereof; wherein the RSOEC is configured to receive electrical energy to electrolyze H 2 O to generate H 2 and O 2 and the reactor is operably connected to the RSOEC to receive the generated H 2 and convert tungsten oxide to tungsten thereby storing electrical energy in the form of tungsten; and wherein the reactor is configured to receive H 2 O to convert tungsten to tungsten oxide and generate H 2 and the RSOEC is operably connected to the reactor to receive the generated H 2 and generate electrical energy and H 2 O thereby recovering electrical energy from tungsten, wherein the apparatus further comprises a heat exchanger; wherein the heat exchanger is configured to receive heat from the reactor when the reactor receives H 2 O to convert tungsten to tungsten oxide and generate H 2 , and wherein the heat exchanger is configured to receive heat from the RSOEC when the RSOEC generates electrical energy and H 2 O; and wherein the heat exchanger is configured to provide heat to the RSOEC when the RSOEC electrolyzes H 2 O to generate H 2 and O 2 , and wherein the heat exchanger is configured to provide heat to the reactor when the reactor converts tungsten oxide to tungsten. 2. The apparatus of claim 1 , wherein the reactor generates H 2 O when tungsten oxide is converted to tungsten and the RSOEC generates H 2 O when electrical energy is generated and the apparatus further comprises a reservoir to store the generated H 2 O. 3. The apparatus of claim 1 , wherein the reactor generates H 2 O when tungsten oxide is converted to tungsten and the apparatus further comprises a conduit to recirculate the generated H 2 O to the RSOEC. 4. The apparatus of claim 1 , wherein the RSOEC generates H 2 O when electrical energy is generated and the apparatus further comprises a conduit to recirculate the generated H 2 O to the reactor. 5. The apparatus of claim 1 , wherein the reactor and the RSOEC are operated at a temperature between about 600° C. to about 1000° C. 6. The apparatus of claim 4 , wherein the reactor and the RSOEC are operated at a temperature between about 800° C. to about 850° C.