Electric component for electric power transmission in an electric system

We claim: 1 . An electric powertrain for an electrical propulsion system, the electric powertrain comprising: a first electric component comprising: a first working component comprising an energy source; a first housing that encloses the first working component; and a first electrical insulator disposed between the first housing and the first working component; and a second electric component coupled to the first electric component, the second electric component comprising: a second working component; a second housing that encloses the second working component; and a second electrical insulator disposed between the second housing and the second working component; and wherein the first electrical insulator of the first electric component is a first pressurized gas and the second electrical insulator of the second electric component is a second pressurized gas, and wherein the first pressurized gas and the second pressurized gas are the same gas. 2 . The electric powertrain of claim 1 , further comprising: a cable for electric power transmission that is coupled to the first electric component and the second electric component, the cable comprising: a conductor defining a hollow interior; a casing surrounding the conductor; and a third electrical insulator positioned between the conductor and the casing. 3 . The electric powertrain of claim 2 , wherein the cable further comprises a supercritical fluid positioned within the hollow interior of the conductor. 4 . The electric powertrain of claim 2 , wherein the third electrical insulator of the cable is a third pressurized gas, and wherein the first pressurized gas, the second pressurized gas, and the third pressurized gas are the same gas with a pressure that is within five percent of each other. 5 . The electric powertrain of claim 1 , wherein the working component is configured to generate, store, and/or transfer electric power. 6 . The electric powertrain of claim 1 , wherein the first and second electrical insulators have a volume resistivity of at least 10 8 ohm-cm. 7 . The electric powertrain of claim 1 , wherein the first and second pressurized gases have a pressure of at least 0.1 megapascal (MPa) and up to 2 MPa. 8 . The electric powertrain of claim 7 , wherein the first and second pressurized gases are pressurized carbon dioxide (CO 2 ), nitrogen, argon, helium, hydrogen, hydrocarbons, fluorocarbons, air or any combinations of these gases. 9 . The electric powertrain of claim 1 , wherein the first electric component further comprises an encasement that encloses the first working component, wherein the first housing encloses the encasement and the first electrical insulator is disposed between the encasement and the first housing, wherein the encasement and the first housing are spaced apart such that a minimum distance between the encasement and the first housing is maintained completely around the encasement, wherein the minimum distance is at least two millimeters. 10 . The electric powertrain of claim 1 , wherein the first electrical insulator is also disposed within the first working component of the first electric component. 11 . An aeronautical propulsion system for an aeronautical vehicle, the aeronautical propulsion system comprising: an electric powertrain comprising: a first electric component comprising: a first working component comprising an energy source; a first housing that encloses the first working component; and a first electrical insulator disposed between the first housing and the first working component; and a second electric component coupled to the first electric component, the second electric component comprising: a second working component; a second housing that encloses the second working component; and a second electrical insulator disposed between the second housing and the second working component; and wherein the first electrical insulator of the first electric component is a first pressurized gas and the second electrical insulator of the second electric component is a second pressurized gas, and wherein the first pressurized gas and the second pressurized gas are the same gas. 12 . An electric component for an electric system, the electric component comprising: a working component comprising an energy source; a housing that encloses the working component; a first electrical insulator disposed between the housing and the working component; and a second electrical insulator disposed at least within the working component; and wherein the first electrical insulator is a first pressurized gas and the second electrical insulator is a second pressurized gas, and wherein the first pressurized gas and the second pressurized gas are the same gas. 13 . The electric component of claim 12 , wherein the first and second electrical insulators have a volume resistivity of at least 108 ohm-cm. 14 . The electric component of claim 12 , wherein the first and second pressurized gases have a pressure of at least 0.1 megapascal (MPa) and up to 2 MPa. 15 . The electric component of claim 14 , wherein the first and second pressurized gases are pressurized carbon dioxide (CO2), nitrogen, argon, helium, hydrogen, hydrocarbons, fluorocarbons, air or any combinations of these gases. 16 . The electric component of claim 12 , wherein the working component and the housing are spaced apart such that a minimum distance between the working component and the housing is maintained completely around the working component. 17 . The electric component of claim 16 , wherein the minimum distance is at least two millimeters. 18 . The electric component of claim 12 , wherein the electric component further comprises an encasement that encloses the working component, wherein the housing encloses the encasement and the first electrical insulator is disposed between the encasement and the housing. 19 . The electric component of claim 12 , wherein the working component comprises an anode or a cathode of a fuel cell.