Scalable and portable ac/dc substation

What is claimed is: 1 . A system for transferring electrical energy as DC voltage, comprising: a modular substation configured to receive an AC voltage input and to deliver a DC voltage output, the modular substation comprising: a base having a substantially planar and rectangular shape, the base comprising: a top surface extending longitudinally from a first end to a second end and laterally from a front side to a rear side, a longitudinal axis along the top surface substantially centered between the front side and the rear side, and a lateral axis along the top surface substantially centered between the first end and the second end, AC voltage switchgear configured to receive the AC voltage input from an external source, an auxiliary transformer configured to be electrically coupled to the AC voltage switchgear, the auxiliary transformer and the AC voltage switchgear being aligned on the top surface of the base substantially parallel to the lateral axis and between the lateral axis and the first end, a main transformer having primary windings and secondary windings, the primary windings being electrically coupled to the AC voltage switchgear, the main transformer being positioned on the top surface of the base substantially at an intersection of the longitudinal axis and the lateral axis, a pair of controlled rectifiers electrically coupled to at least the secondary windings of the main transformer and configured to generate the DC voltage output, the pair of controlled rectifiers being aligned on the top surface of the base substantially parallel to the lateral axis and between the main transformer and the second end, one or more lowpass filters electrically coupled to the pair of controlled rectifiers, the one or more lowpass filters being positioned substantially parallel to the lateral axis and symmetrical about the longitudinal axis between the pair of controlled rectifiers and the second end, and DC voltage switchgear electrically coupled to the one or more lowpass filters and configured to receive the DC voltage output from the one or more lowpass filters, the DC voltage switchgear being positioned proximate to the second end of the base, substantially parallel to the lateral axis, and symmetrical about the longitudinal axis; and a conductive rail, electrically coupled to the DC voltage switchgear, configured to transfer the DC voltage output to a load connected to the conductive rail. 2 . The system of claim 1 , further comprising: a first pair of air-conditioning units respectively positioned proximate the front side and the rear side and between the lateral axis and the first end; and a second air-conditioning units respectively positioned proximate the front side and the rear side and between the lateral axis and the second end. 3 . The system of claim 1 , further comprising: piers, positioned between the base and ground and structured to provide vertical support to the modular substation, the piers being configured to elevate the base to a height of at least one meter above the ground. 4 . The system of claim 1 , wherein the modular substation further comprises: walls rising vertically above the first end, the second end, front side, and the rear side, respectively, of the base; at least one door within one of the walls, the at least one door containing a mechanical fixture configured to selectively secure the at least one door in a closed position; and a microswitch attached to the at least one door, the microswitch configured to generate a signal indicating movement of the at least one door from the closed position. 5 . The system of claim 1 , wherein the AC voltage input is at least 11 kV three-phase AC and the DC voltage output is at least +/−1.1 kV DC. 6 . The system of claim 1 , wherein the modular substation includes an end wall rising from the second end of the base, the end wall including a workstation for an operator standing external to the modular substation to control the modular substation. 7 . A portable electrical substation, comprising: a rectangular platform having a top surface, the top surface having a geometric center between an upstream end and a downstream end and between a first side and a second side, wherein a longitudinal axis passes through the geometric center and along the top surface substantially parallel to the first side and the second side, wherein a lateral axis passes through the geometric center and along the top surface substantially parallel to the upstream end and the downstream end; a primary high-voltage transformer attached to the top surface symmetrical about the longitudinal axis and symmetrical about the lateral axis; AC voltage switchgear attached to the top surface upstream from the primary high-voltage transformer and substantially parallel to the lateral axis; a pair of controlled rectifiers attached to the top surface downstream from the primary high-voltage transformer and aligned together substantially parallel to the lateral axis; one or more lowpass filters attached to the top surface downstream from the pair of controlled rectifiers and symmetrical about the longitudinal axis; and DC voltage switchgear attached to the top surface proximate the downstream end, substantially parallel to the lateral axis, and symmetrical about the longitudinal axis. 8 . The portable electrical substation of claim 7 , further comprising: an auxiliary high-voltage transformer attached to the top surface upstream from the primary high-voltage transformer, the auxiliary high-voltage transformer being aligned with the AC voltage switchgear substantially parallel to the lateral axis. 9 . The portable electrical substation of claim 7 , wherein the pair of controlled rectifiers are symmetrical about the longitudinal axis. 10 . The portable electrical substation of claim 7 , wherein the one or more lowpass filters and the DC voltage switchgear are aligned together substantially parallel to the lateral axis. 11 . The portable electrical substation of claim 7 , wherein the DC voltage switchgear is downstream from the one or more lowpass filters. 12 . The portable electrical substation of claim 7 , further comprising: first pair of air-conditioning units respectively positioned proximate the first side and the second side and between the lateral axis and the upstream end; and second air-conditioning units respectively positioned proximate the first side and the second side and between the lateral axis and the downstream end. 13 . The portable electrical substation of claim 7 , further comprising: walls rising vertically above the upstream end, the downstream end, first side, and the second side, respectively, of the rectangular platform; at least one door within one of the walls, the at least one door containing a mechanical fixture configured to selectively secure the at least one door in a closed position; and a microswitch attached to the at least one door, the microswitch configured to generate a signal indicating movement of the at least one door from the closed position. 14 . The portable electrical substation of claim 7 , further comprising: walls rising vertically above the upstream end, the downstream end, first side, and the second side, respectively, of the rectangular platform, wherein the portable electrical substation fits within a standard intermodal high-cube shipping container according to ISO 668:2020 Series 1AAA. 15 . A method of assembling a portable electrical substation, comprising: providing a rectangular platform having a geometric center between an upstream end and a downstream end a