Gas separation device

The invention claimed is: 1. A gas separation device, comprising: a plurality of membrane modules connected in parallel to each other, the plurality of membrane modules each including a gas separation membrane configured to reduce a non-hydrocarbon gas in a feed gas containing the non-hydrocarbon gas when the non-hydrocarbon gas is supplied to a primary side through a feed gas line and permeates from the primary side to a secondary side; permeate gas lines, which are connected to the plurality of membrane modules, and which are each configured to cause a permeate gas to flow out; non-permeate gas lines, which are connected to the plurality of membrane modules, and which are each configured to cause a non-permeate gas to flow out; a gas line for regeneration configured to supply, as a gas for regeneration of a second membrane module during non-operation, a permeate gas having permeated through a first membrane module during operation among the plurality of membrane modules to the gas separation membrane of the second membrane module through the primary side of the second membrane module; a regeneration valve provided in the gas line for regeneration; a supply valve provided in the feed gas line connected to each of the primary sides of the plurality of membrane modules; and a control unit configured to output a control signal so that the supply valve of the second membrane module is closed and the regeneration valve is opened in order to perform regeneration of the second membrane module with the gas for regeneration supplied by closing the supply valve of the second membrane module to bring the second membrane module into a non-operation state, and opening the regeneration valve, wherein the gas line for regeneration includes: a former-stage gas line having one end side connected to the secondary side of each of the plurality of membrane modules and another end side connected to one end side of a common heating unit; and a latter-stage gas line having one end side connected to another end side of the heating unit and another end side branched to be connected to the primary side of each of the plurality of membrane modules, and wherein the regeneration valve is provided in each of the former-stage gas line and the branched latter-stage gas line. 2. The gas separation device according to claim 1 , further comprising a depressuring mechanism configured to decompress a gas line on the secondary side of the second membrane module that is being regenerated. 3. The gas separation device according to claim 1 , wherein the regeneration of the another membrane module during non-operation takes two or more hours from a start to an end.