Electrochemical Element, Electrochemical Module, Electrochemical Device, and Energy System

1 . An electrochemical element comprising: a conductive plate-like support provided with an internal passage therein, the internal passage being configured such that a first gas that is one of reducing component gas and an oxidative component gas flows through the internal passage, wherein the plate-like support comprises: a gas-permeable portion through which gas is permeable between the internal passage, which is located inside the plate-like support, and the outside; and an electrochemical reaction portion that is formed by stacking at least a film-like electrode layer, a film-like electrolyte layer, and a film-like counter electrode layer in the stated order in a predetermined stacking direction so as to entirely or partially cover the gas-permeable portion, wherein the internal passage comprises a plurality of auxiliary passages through which the first gas flows in a predetermined flowing direction, and a distribution portion that is provided on an upstream side of the plurality of auxiliary passages in the flowing direction of the first gas, and wherein the plate-like support comprises a supply structure that is located between the distribution portion and the plurality of auxiliary passages in the flowing direction and in which the first gas is temporarily stored in the distribution portion and supply of the first gas from the distribution portion to the plurality of auxiliary passages is limited. 2 . The electrochemical element according to claim 1 , wherein the supply structure comprises a supply passing portion through which the first gas flows from the distribution portion to the plurality of auxiliary passages, and a supply preventing portion that prevents the first gas from flowing from the distribution portion to the plurality of auxiliary passages. 3 . The electrochemical element according to claim 2 , wherein the plate-like support comprises a plurality of auxiliary passage forming portions that form the plurality of auxiliary passages, and a plurality of partitioning portions that are each provided between adjacent auxiliary passage forming portions to separate adjacent auxiliary passages, and wherein the plurality of partitioning portions are arranged such that any of the partitioning portions corresponds to the supply passing portion in the flowing direction. 4 . The electrochemical element according to claim 3 , wherein the plurality of auxiliary passages formed by the plurality of auxiliary passage forming portions are arranged such that at least one of the auxiliary passages corresponds to the supply preventing portion in the flowing direction. 5 . The electrochemical element according to claim 3 , wherein the location of the supply preventing portion in the stacking direction differs from locations of the distribution portion and the supply passing portion in the stacking direction. 6 . The electrochemical element according to claim 5 , wherein locations of the partitioning portions in the stacking direction differ from locations of the auxiliary passage forming portions in the stacking direction. 7 . The electrochemical element according to claim 1 , wherein the internal passage comprises a confluence portion that is provided on a downstream side of the plurality of auxiliary passages in the flowing direction of the first gas, and wherein the plate-like support comprises a discharge structure that is located between the plurality of auxiliary passages and the confluence portion in the flowing direction and with which discharge of the first gas from the plurality of auxiliary passages to the confluence portion is limited. 8 . The electrochemical element according to claim 7 , wherein the discharge structure comprises a discharge passing portion through which the first gas flows from the plurality of auxiliary passages to the confluence portion, and a discharge preventing portion that prevents the first gas from flowing from the plurality of auxiliary passages to the confluence portion. 9 . The electrochemical element according to claim 8 , wherein the plate-like support comprises a plurality of auxiliary passage forming portions that form the plurality of auxiliary passages, and a plurality of partitioning portions that are each provided between adjacent auxiliary passage forming portions to separate adjacent auxiliary passages, and wherein the plurality of auxiliary passages formed by the plurality of auxiliary passage forming portions are arranged such that at least one of the auxiliary passages corresponds to the discharge preventing portion in the flowing direction. 10 . The electrochemical element according to claim 9 , wherein the plurality of partitioning portions are arranged such that any of the partitioning portions corresponds to the discharge passing portion in the flowing direction. 11 . An electrochemical module comprising: a plurality of the electrochemical elements according to claim 1 , the electrochemical elements being stacked in the predetermined stacking direction with annular sealing portions for passing the first gas interposed between the electrochemical elements. 12 . The electrochemical module according to claim 11 , wherein the first gas is introduced into the internal passage via the annular sealing portions, and wherein a flowing portion through which a second gas flows is formed between electrochemical elements that are adjacent to each other in the stacking direction, the second gas being the other of the reducing component gas and the oxidative component gas. 13 . The electrochemical module according to claim 11 , wherein a first electrochemical element and a second electrochemical element of the plurality of electrochemical elements are adjacently stacked, wherein the first gas is introduced into the internal passage of the plate-like support via the annular sealing portions, and wherein the plate-like support included in the first electrochemical element and the plate-like support included in the second electrochemical element are opposed to each other, an outer face of the plate-like support included in the first electrochemical element on which the electrochemical reaction portion is arranged is electrically connected to an outer face of the plate-like support included in the second electrochemical element that is different from an outer face on which the electrochemical reaction portion is arranged, and a flowing portion through which a second gas flows is formed between the two adjacent outer faces along the two outer faces, the second gas being the other of the reducing component gas and the oxidative component gas. 14 . The electrochemical module according to claim 13 , wherein the plate-like support of each electrochemical element comprises a first penetrated portion that forms a supply passage through which the first gas flows, and wherein the first penetrated portion of each electrochemical element is in communication with an annular hole of an annular sealing portion that is interposed between adjacent electrochemical elements. 15 . The electrochemical module according to claim 14 , further comprising, a first annular sealing portion in the flowing portion serving as the annular sealing portion for separating the first penetrated portion formed in each of the two outer faces from the flowing portion, and wherein the supply passage for supplying the first gas to the internal passage is formed by the first penetrated portion and the first annular sealing portion. 16 . The electrochemical module according to claim 14 , wherein the plate-like support comprises a second penetrat