Water-alcohol separation system and water-alcohol separation method for producing alcohol

What is claimed is: 1. A water-alcohol separation system comprising: a plurality of separation membrane modules connected in series, a vacuum apparatus for reducing the pressure at a permeated side of a membrane of one or more of the separation membrane modules, and a condenser for condensing a vapor that has passed through the membrane of the one or more of the separation membrane modules, wherein all of the separation membrane modules are modules for a pervaporation (PV) method or all of the separation membrane modules are modules a vapor-permeation (VP) method, wherein a plurality of independent vacuum systems which have at least two vacuum apparatuses and condensers reduce the pressure at the permeated side of the membrane of the one or more of the separation membrane modules, wherein the plurality of the independent vacuum systems comprise at least a first vacuum system and a second vacuum system; the first vacuum system is provided with a first condenser, and the second vacuum system is provided with a second condenser; and a temperature T 1 of a coolant retained by the first condenser is higher than a temperature T 2 of a coolant retained by the second condenser, wherein T 1 is 0° C. or more, and T 2 is 35° C. or less, and wherein a pressure P 1 at a vacuum side of a membrane of a separation membrane module placed most downstream in a first membrane module unit depressurized by the first vacuum system is higher than a pressure P 2 at a vacuum side of a membrane of a separation membrane module placed most downstream in a second membrane module unit depressurized by the second vacuum system. 2. The water-alcohol separation system according to claim 1 , wherein T 1 is 20° C. or higher. 3. The water-alcohol separation system according to claim 1 , wherein T 2 is 5° C. or lower. 4. The water-alcohol separation system according to claim 1 , wherein the plurality of the independent vacuum systems further comprises at least a third vacuum system; wherein the third vacuum system is provided with a third condenser, wherein a temperature of a coolant retained by the third condenser is 5° C. or lower, and wherein T 1 is 20° C. or higher. 5. The water-alcohol separation system according to claim 1 , wherein P 1 is 20 kPa (absolute pressure) or less. 6. The water-alcohol separation system according to claim 1 , wherein a separation membrane module selected from the plurality of separation membrane modules is provided with an inorganic porous support-zeolite membrane complex comprising a zeolite membrane on the surface of an inorganic porous support. 7. A method for water-alcohol separation comprising: a step of introducing a water-alcohol mixture into a plurality of separation membrane modules connected in series; and a separation step of separating water and an alcohol from each other by controlling a plurality of the separation membrane modules connected in series by a plurality of independent vacuum systems; wherein all of the separation membrane modules are modules for a pervaporation (PV) method or all of the separation membrane modules are modules for a vapor-permeation (VP) method, wherein the plurality of the independent vacuum systems comprise at least a first vacuum system and a second vacuum system; the first vacuum system is provided with a first condenser, and the second vacuum system is provided with a second condenser; wherein the separation step comprises: a first separation step of separating the water-alcohol mixture by reducing a pressure of a separation membrane module placed most downstream in a first membrane module unit by the first vacuum system to a pressure P 1 , wherein the first vacuum system depressurizes a permeated side of the first membrane module unit, a first condensation step of condensing a vapor that has passed through a membrane of the separation membrane module placed most downstream in the first membrane module unit and is obtained from the first separation step; a second separation step of separating the water-alcohol mixture after the first separation step by reducing a pressure of a separation membrane module placed most downstream in a second membrane module unit by the second vacuum system to a pressure P 2 , wherein the second vacuum system depressurizes a permeated side of the second membrane module unit; a second condensation step of condensing a vapor that has passed through a membrane of the separation membrane module placed most downstream in the second membrane module unit and is obtained from the second separation step; wherein P 1 is higher than P 2 ; wherein a temperature T 1 of a coolant retained by the first condenser is higher than a temperature T 2 of a coolant retained by the second condenser, and wherein T 1 is 0° C. or more, and T 2 is 35° C. or less. 8. The method for water-alcohol separation according to claim 7 , wherein T 1 is 20° C. or higher. 9. The method for water-alcohol separation according to claim 7 , wherein T 2 is 5° C. or lower. 10. The method for water-alcohol separation according to claim 7 , wherein the plurality of the independent vacuum systems further comprises a third vacuum system provided with a third condenser; and wherein a temperature of a coolant retained by the third condenser is 5° C. or lower, and wherein T 1 is 20° C. or higher. 11. The method for water-alcohol separation according to claim 7 , wherein P 1 is 20 kPa or less. 12. The method for water-alcohol separation according to claim 7 , wherein a separation membrane module selected from the plurality of separation membrane modules is provided with an inorganic porous support-zeolite membrane complex comprising a zeolite membrane on the surface of an inorganic porous support.