Water recovery device

What is claimed is: 1 . A water recovery device to recover water from exhaust gas including water vapor, comprising: an exhaust gas pipe that is connected to a combustion device which combusts fuel to emit exhaust gas including water vapor, and that defines an exhaust path of exhaust gas emitted from the combustion device; a water generation unit that generates water by cooling exhaust gas in the exhaust gas pipe to condense water vapor in the exhaust gas; and a water container that is disposed on the exhaust path and stores water generated by the water generation unit, wherein the water generation unit includes: an acoustic-wave generator that generates acoustic waves by absorbing heat from the exhaust gas pipe and giving the heat to working fluid, which transmits acoustic waves by oscillating, to cause the working fluid to oscillate; a transmission pipe that is internally filled with the working fluid and transmits acoustic waves generated by the acoustic-wave generator via oscillations of the working fluid; and a cold-heat generator that generates cold heat to supply the cold heat to the exhaust gas pipe by receiving acoustic waves transmitted through the transmission pipe and giving heat to the acoustic waves. 2 . The water recovery device according to claim 1 , wherein the acoustic-wave generator includes: a first heat/acoustic wave conversion component that has a wall part defining a through hole which penetrates through two ends of the first heat/acoustic wave conversion component and which is internally filled with the working fluid, the first heat/acoustic wave conversion component mutually converting heat exchanged between the wall part and the working fluid and acoustic-wave energy resulting from oscillations of the working fluid; and a first heat exchanger that comes into contact with the exhaust gas pipe, and that is disposed close to one end face of the two end faces of the first heat/acoustic wave conversion component, the first heat exchanger transmitting heat from the exhaust gas pipe to the one end face so as to keep temperature at the one end face relatively higher than temperature at the other end face, wherein the transmission pipe has one end thereof directly or indirectly connected to the other end face of the first heat/acoustic wave conversion component, and transmits acoustic waves coming out from the other end face toward the other end of the transmission pipe, and wherein the cold-heat generator includes: a second heat/acoustic wave conversion component that has a wall part defining a through hole which penetrates through two ends of the second heat/acoustic wave conversion component, which is internally filled with the working fluid, and through which acoustic waves transmitted through the transmission pipe travel, the second heat/acoustic wave conversion component mutually converting heat exchanged between the wall part and the working fluid and acoustic-wave energy from oscillations of the working fluid; and a second heat exchanger that comes into contact with the exhaust gas pipe, that is disposed close to an end face located upstream in a traveling direction of acoustic waves in the through hole, of the two end faces of the second heat/acoustic wave conversion component, and that is connected to the other end of the transmission pipe, the second heat exchanger giving heat to acoustic waves transmitted through the transmission pipe so as to keep temperature at the end face located upstream in the traveling direction relatively lower than temperature at an end face located downstream in the traveling direction, of the two end faces of the second heat/acoustic wave conversion component. 3 . The water recovery device according to claim 2 , wherein the acoustic-wave generator further includes a third heat exchanger that is disposed close to the other end face of the two end faces of the first heat/acoustic wave conversion component and that exchanges heat with surrounding air so as to keep temperature at the other end face substantially at air temperature, and the cold-heat generator further includes a fourth heat exchanger that is disposed close to the end face located downstream in the traveling direction of the two end faces of the second heat/acoustic wave conversion component and that exchanges heat with surrounding air so as to keep temperature at the end face located downstream in the traveling direction substantially at air temperature. 4 . The water recovery device according to claim 2 , wherein each of the first heat/acoustic wave conversion component and the second heat/acoustic wave conversion component is a honeycomb structure having a partition wall as the wall part that defines a plurality of cells extending between the two end faces, hydraulic diameter HD of the honeycomb structure is 0.4 mm or less, where the hydraulic diameter HD is defined as HD=4×S/C, where S denotes an area of a cross section of each cell perpendicular to the cell penetrating direction and C denotes a perimeter of the cross section, and the honeycomb structure has an open frontal area at each end face of 60% or more and 93% or less. 5 . The water recovery device according to claim 3 , wherein each of the first heat/acoustic wave conversion component and the second heat/acoustic wave conversion component is a honeycomb structure having a partition wall as the wall part that defines a plurality of cells extending between the two end faces, hydraulic diameter HD of the honeycomb structure is 0.4 mm or less, where the hydraulic diameter HD is defined as HD=4×S/C, where S denotes an area of a cross section of each cell perpendicular to the cell penetrating direction and C denotes a perimeter of the cross section, and the honeycomb structure has an open frontal area at each end face of 60% or more and 93% or less. 6 . The water recovery device according to claim 4 , wherein at least one of the first heat/acoustic wave conversion component and the second heat/acoustic wave conversion component is a honeycomb structure made of cordierite. 7 . The water recovery device according to claim 5 , wherein at least one of the first heat/acoustic wave conversion component and the second heat/acoustic wave conversion component is a honeycomb structure made of cordierite. 8 . The water recovery device according to claim 1 , wherein the combustion device is an engine that generates power by evaporating fuel and combusting the evaporated fuel, and has a water addition mechanism which adds water to the evaporated fuel by injecting water, and the water recovery device further includes a water supply mechanism that supplies water stored in the water container to the water addition mechanism. 9 . The water recovery device according to claim 2 , wherein the combustion device is an engine that generates power by evaporating fuel and combusting the evaporated fuel, and has a water addition mechanism which adds water to the evaporated fuel by injecting water, and the water recovery device further includes a water supply mechanism that supplies water stored in the water container to the water addition mechanism. 10 . The water recovery device according to claim 3 , wherein the combustion device is an engine that generates power by evaporating fuel and combusting the evaporated fuel, and has a water addition mechanism which adds water to the evaporated fuel by injecting water, and the water recovery device further includes a water supply mechanism that supplies water stored in the water container to the water addition mechanism. 11 . The water recovery device according to claim 4 , wherein the combustion device is an engine that generates power by evaporating fuel and