Heat exchanger

The invention claimed is: 1. A heat exchanger for causing heat exchange between a high-temperature gas and a liquid having a lower temperature than the high-temperature gas to heat the liquid, the heat exchanger comprising: a frame defining a part of a gas passage for the high-temperature gas; a plurality of heat transfer plates arranged within the frame with a space left between the plurality of heat transfer plates for the high-temperature gas to flow; and a hollow pipe extending through the plurality of heat transfer plates, the hollow pipe being configured to receive the liquid to exchange heat with the high-temperature gas flowing through the space between the plurality of heat transfer plates, wherein the hollow pipe extends through the plurality of heat transfer plates at predetermined N positions aligned in a direction crossing a direction in which the high-temperature gas flows through the space between the plurality of heat transfer plates, where N is an integer of at least three, the plurality of heat transfer plates each include N−1 inter-pipe portions between adjacent parts of the hollow pipe extending through the plurality of heat transfer plates at the N positions, the N−1 inter-pipe portions of each heat transfer plate include selected M inter-pipe portion(s) each of which includes a thermal expansion absorbing space configured between an edge of the heat transfer plate receiving inflow of the high-temperature gas and the selected inter-pipe portion(s) to absorb thermal expansion of the heat transfer plate, where M is an integer smaller than N−1, and no thermal expansion absorbing space is configured in each of non-selected N−1-M inter pipe portion(s) among the N−1 inter-pipe portions of each heat transfer plate. 2. The heat exchanger according to claim 1 , wherein the thermal expansion absorbing space is a cut extending from the edge of the heat transfer plate receiving the inflow of the high-temperature gas to the selected inter-pipe portion. 3. The heat exchanger according to claim 1 , wherein each heat transfer plate is divided by the selected inter-pipe portion into a plurality of sub-areas through which the hollow pipe extends, and the selected inter-pipe portion is positioned to allow each of the plurality of sub-areas to receive not more than three parts of the hollow pipe extending through the sub-areas. 4. The heat exchanger according to claim 1 , wherein each heat transfer plate is divided by the selected inter-pipe portion into a plurality of sub-areas through which the hollow pipe extends, and the selected inter-pipe portion is positioned to allow the plurality of sub-areas to receive the same number of parts of the hollow pipe extending through the sub-areas or numbers of parts of the hollow pipe different from one another by not more than one. 5. The heat exchanger according to claim 1 , wherein the selected inter-pipe portion is at least one of inter-pipe portions symmetric to each other among the N−1 inter-pipe portions. 6. The heat exchanger according to claim 1 , wherein each heat transfer plate receives the hollow pipe extending through the heat transfer plate at the N positions, and receives a plurality of parts of the hollow pipe extending through the heat transfer plate at positions downstream in a direction in which the high-temperature gas flows, and the selected inter-pipe portion is selected from the N−1 inter-pipe portions between upstream parts of the hollow pipe extending through the heat transfer plate at the N positions.