Electrochemical device

What is claimed is: 1 . An electrochemical device comprising: a membrane electrode assembly (MEA); a first separator comprising a manifold part through which a reaction fluid is introduced or discharged, a flow path part spaced apart from the manifold part and configured to define a reaction region configured to react with the membrane electrode assembly, and a through-hole provided between the manifold part and the flow path part and configured to guide the reaction fluid, which has passed through the manifold part, to the flow path part, the first separator being stacked on one surface of the membrane electrode assembly; a first porous transport layer configured to entirely cover the flow path part and the through-hole and interposed between the membrane electrode assembly and the first separator; and a first protrusion pattern provided on the first separator, disposed adjacent to the through-hole, and configured to support the first porous transport layer on the first separator while defining a guide flow path configured to guide the reaction fluid, which has passed through the through-hole, to the flow path part. 2 . The electrochemical device of claim 1 , wherein the first protrusion pattern comprises a first-first protrusion protruding from one surface of the first separator that faces the first porous transport layer, and a first-second protrusion protruding from one surface of the first separator and spaced apart from the first-first protrusion in a width direction of the first separator, and wherein the guide flow path is defined between the first-first protrusion and the first-second protrusion. 3 . The electrochemical device of claim 2 , wherein the first porous transport layer is supported by the first-first protrusion and the first-second protrusion and spaced apart from the through-hole. 4 . The electrochemical device of claim 2 , wherein the first-first protrusion and the first-second protrusion are formed in relief on one surface of the first separator by partially processing a part of the first separator. 5 . The electrochemical device of claim 1 , comprising a second protrusion pattern provided on the first separator, disposed adjacent to the through-hole, and configured to define a movement flow path configured to guide the reaction fluid, which has passed through the manifold part, to the through-hole, the second protrusion pattern and the first protrusion pattern being configured to collectively support the first porous transport layer on the first separator. 6 . The electrochemical device of claim 5 , wherein the second protrusion pattern comprises a second-first protrusion formed in relief on one surface of the first separator, which faces the first porous transport layer, by partially processing a part of the first separator, and a second-second protrusion spaced apart from the second-first protrusion in a width direction of the first separator and formed in relief on one surface of the first separator, and wherein the movement flow path is defined along an internal space of the second-first protrusion and an internal space of the second-second protrusion. 7 . The electrochemical device of claim 6 , wherein the first porous transport layer is supported by the second-first protrusion and the second-second protrusion and spaced apart from the through-hole. 8 . The electrochemical device of claim 5 , wherein the second protrusion pattern and the first protrusion pattern are disposed on different lines in a longitudinal direction of the first separator. 9 . The electrochemical device of claim 1 , wherein the first porous transport layer is provided to have higher rigidity than the membrane electrode assembly. 10 . The electrochemical device of claim 1 , comprising a sealing member provided on one surface of the first separator, which faces the membrane electrode assembly, and configured to seal a portion between the membrane electrode assembly and the first separator. 11 . The electrochemical device of claim 10 , wherein the sealing member comprises a first sealing portion configured to surround a periphery of the first porous transport layer, and a second sealing portion connected to the first sealing portion and configured to support one surface of the first porous transport layer that faces the first separator. 12 . The electrochemical device of claim 11 , wherein the second sealing portion is defined to have a thickness corresponding to the first protrusion pattern. 13 . The electrochemical device of claim 1 , comprising a second separator stacked on another surface of the membrane electrode assembly, and a second porous transport layer interposed between the membrane electrode assembly and the second separator. 14 . The electrochemical device of claim 13 , wherein the second porous transport layer is provided to have a size corresponding to the first porous transport layer.