Patent Number: 
Section: claims

1. A construction method for an exhaust heat recovery boiler which generates steam by providing a plurality of heat exchanger tubes in a gas duct in which an exhaust gas flows generally horizontally, the construction method comprising:providing a heat exchanger tube bundle panel module, the heat exchanger tube bundle panel module comprising:a plurality of heat exchanger tube bundle panels positioned in a gas flow direction, the plurality of heat exchanger tube bundle panels including a plurality of heat exchanger tubes, upper and lower headers provided at opposing ends of the heat exchanger tubes, and vibration restraining supports provided at predetermined intervals to prevent contact between adjacent heat exchanger tubes in a direction transverse to the lengthwise direction of the heat exchanger tubes,a casing defining the gas duct, the casing having a thermal insulating material provided inside of the casing so as to cover an outer periphery of the gas duct, the outer casing comprising a ceiling wall, a bottom wall, and side-walls,heat exchanger tube bundle panel support beams located outside the ceiling wall of the casing, the heat exchanger tube bundle panel support beams comprising ceiling walls of the casing when installed in the exhaust heat recovery boiler,header supports which penetrate the ceiling wall of the casing and connect the upper headers to the heat exchanger tube bundle panel support beams, the header supports being configured to support a plurality of heat exchanger tube bundle panels,vertical module frames comprising vertical support members of the heat exchanger tube bundle panels located outside the side-walls of the casing, the vertical support members comprising side walls of the casing when installed in the boiler, andhorizontal module frames comprising horizontal support members of the heat exchanger tube bundle panel located outside the ceiling wall and bottom wall of the casing, the horizontal support members comprising ceiling walls and bottom walls of the casing when installed in the exhaust heat recovery boiler,the heat exchanger tube bundle panel module comprising at least one of a plurality of modules, the at least one of a plurality of modules having a size corresponding to parameters of the exhaust heat recovery boiler,wherein when transporting the heat exchanger tube bundle panel module, vibration restraining fixing members configured to prevent vibration of the heat exchange tubes are positioned between the vibration restraining supports and the casing, the heat exchanger tube bundle panel module having the vibration restraining fixing members positioned between the lower headers and the casing;providing main frames configured to support the heat exchanger tube bundle panel module, the main frames including main columns, main beams and bottom wall columns which are constructed at a construction site of the exhaust heat recovery boiler prior to installing the heat exchanger tube bundle panel module,inserting the at least one of a plurality of modules between an adjacent two main columns and setting a height of the heat exchanger tube panel support beams of the heat exchanger tube bundle panel modules to a setting, height of the main beams prior to installing the heat exchanger tube bundle panel module at the exhaust heat recovery boiler construction site,connecting and fixing the vertical module frames and the main columns to each other, connecting and fixing the horizontal module frame on the ceiling wall side and the main beam to each other, and connecting and fixing the horizontal module frame on the bottom wall side and the bottom wall columns to each other. 2. The exhaust heat recovery boiler construction method according to claim 1, further comprising:sizing each heat exchanger tube bundle panel module so as to allow at least two of the at least a plurality of modules to be positioned in a horizontal direction of a plane which is orthogonal to the gas flow of the exhaust heat recovery boiler; andproviding first aseismic braces that connect the end portion inner side of the casing which comprises the ceiling wall of the heat exchanger tube bundle panel module and the central portion inner side of the casing which comprises the side wall of the heat exchanger tube bundle panel module, the first aseismic braces being located at positions facing the heat exchanger tube bundle panels on at least one of a surface side and a back surface side in the gas flow direction, andproviding second aseismic braces that connect the end of the casing which comprises the bottom wall side of the heat exchanger tube bundle panel module and the central portion inner side of the casing which comprises the side wall of the heat exchanger tube bundle panel module, the second aseismic braces being located at positions facing the heat exchanger tube bundle panels on at least one of the surface side and the back surface side in the gas flow direction, wherein the first and second aseismic braces are not removed during transportation and installation of the heat exchanger tube bundle panel modules, the first and second aseismic braces being not removed after completion of the boiler construction. 3. The exhaust heat recovery boiler construction method according to claim 2, further comprising:providing, during transportation of heat exchanger tube bundle panel modules, transporting spacers that maintain distances between the first and second aseismic braces and the surfaces and the back surfaces in the gas flow direction of heat exchanger tube bundle panels. 4. A heat exchanger tube bundle panel module for construction of an exhaust heat recovery boiler which generates steam by providing a plurality of heat exchanger tubes inside a gas duct in which gas flows horizontally, the heat exchanger tube bundle panel module for construction of an exhaust heat recovery boiler comprising:a plurality of heat exchanger tube bundle panels positioned in a gas flow direction, each including a plurality of heat exchanger tubes, upper and lower headers provided at opposing ends of the heat exchanger tubes, and vibration restraining supports provided at predetermined intervals in a direction transverse to a lengthwise direction of the heat exchanger tubes and configured to prevent contact between adjacent heat exchanger tubes;a casing defining the gas duct, the casing having a thermal insulating material provided inside of the casing and covering the outer peripheral portion of the gas duct, the casing comprising a ceiling wall, a bottom wall, and side walls each extending along the gas flow direction of the plurality of heat exchanger tube bundle panels;heat exchanger tube bundle panel support beams located outside the ceiling wall of the casing, the heat exchanger tube bundle panel support beams comprising the ceiling wall when the heat exchanger tube bundle panel module is installed in the exhaust heat recovery boiler;header supports that penetrate the ceiling wall of the casing and connect the upper headers and the heat exchanger tube bundle panel support beams, the header supports being configured to support the heat exchanger tube bundle panel module;vertical module frames comprising vertical support members for the heat exchanger tube bundle panels located outside the casing, the vertical support frames comprising side-walls when the heat exchanger tube bundle panel module is installed in the exhaust heat recovery boiler, the vertical support frame member being provided on a casing side, the vertical support frame further comprising first aseismic braces that connect the end portion inner side of the casing which comprises the ceiling wall and the central portion inner side of the casing which comprises the side wall casing, the first aseismic braces facing the heat exchanger tube bundle panels on at least one of the surface side and the back surface side in the gas flow direction of each heat exchanger tube bundle panel module, and second aseismic braces which connect the end of the casing comprising the bottom wall side and the central portion inner side of the casing comprising the side wall side, the second aseismic braces being positioned to face the heat exchanger tube bundle panels on at least one of the surface side and the back surface side in the gas flow direction; andhorizontal module frames comprising horizontal support members for the heat exchanger tube bundle panels located outside the ceiling wall and outside the bottom wall of the casing, the horizontal module frame comprising the ceiling wall and bottom wall when the heat exchanger tube bundle panel module is installed in the exhaust heat recovery boiler, whereinthe heat exchanger tube bundle panel module is sized to allow at least two heat exchanger tube bundle panel modules to be positioned adjacent to each other in the horizontal direction of a plane orthogonal to the gas flow of the exhaust heat recovery boiler, the heat exchanger tube bundle panel module being configured to be positioned among main frames of the exhaust heat recovery boiler which are configured to support modules, the main framed comprising main columns, main beams, and bottom wall columns, the main columns and the vertical module frames, the main beams and the horizontal module frame on the ceiling wall side, and the bottom wall columns and the horizontal module frame on the bottom wall, respectively, being configured to be connected and fixed to each other. 5. The heat exchanger tube bundle panel module for construction of an exhaust heat recovery boiler according to claim 4, wherein the vertical module frames are provided with a first transporting reinforcing member that couples the end of the casing comprising the ceiling wall side and the end of the casing comprising the bottom wall side to each other, and the first transporting reinforcing member being configured to be removed after installation of the heat exchanger tube bundle panel module in the exhaust heat recovery boiler is completed, and a plurality of second transporting reinforcing members that couple the first transporting reinforcing member and the casing side-wall side to each other and are removed after installation of the heat exchanger tube bundle panel module in the exhaust heat recovery boiler is completed, the second transporting reinforcing members being positioned to face the heat exchanger tube bundle panel modules on at least one of the surface side and the back surface side in the gas flow direction of the respective heat exchanger tube bundle panels. 6. The heat exchanger tube bundle panel module for construction of an exhaust heat recovery boiler according to claim 4, wherein vibration restraining fixing members are positioned between the vibration restraining supports and the casing, and the vibration restraining fixing members are positioned between the lower headers and the casing. 7. The heat exchanger tube bundle panel module for construction of an exhaust heat recovery boiler according to claim 4, wherein baffle plates are attached to side surfaces of a plane orthogonal to the gas flow direction of the heat exchanger tube bundle panels of each heat exchanger tube bundle panel module the baffle plates being positioned between the heat exchanger tube bundle panels of two modules which are positioned adjacent to each other in the horizontal direction of a plane orthogonal to the gas flow, gas short pass preventive plates which are connected at one of the side surfaces of the baffle plates, and the gas short pass preventive plates contacting the other one of the side surfaces of the baffle plates of the other heat exchanger tube bundle panel. 8. The heat exchanger tube bundle panel module for construction of an exhaust heat recovery boiler according to claim 7, wherein the side surfaces of the gas short pass preventive plates are configured to come into contact with the baffle plates of each heat exchanger tube bundle panel, the side surfaces of the gas short pass preventive plates being bent toward a upstream side of the gas flow.