Stacked heat exchanger

The invention claimed is: 1. A stacked heat exchanger, comprising: a high temperature layer that has a plurality of channels into which a high temperature-side fluid is introduced; and a low temperature layer that has a plurality of channels into which a low temperature-side fluid is introduced, the low temperature layer being stacked on the high temperature layer, and the low temperature-side fluid having a temperature lower than the high temperature-side fluid, wherein each of the channels of the low temperature layer has an upstream-side part in which at least a part of the low temperature-side fluid evaporates by being heated by the high temperature-side fluid that flows within the high temperature layer, and a downstream-side part in which the low temperature-side fluid that has evaporated in the upstream-side part is heated by the high temperature-side fluid that flows within the high temperature layer, the plurality of upstream-side parts occupies an area in the low temperature layer that is less than an area occupied by the plurality of downstream-side parts in the low temperature layer, the low temperature layer further includes exactly one communication channel disposed between the plurality of upstream-side parts and the plurality of downstream-side parts that communicates with the upstream-side part of each of the channels and communicates with the downstream-side part of each of the channels; the plurality of upstream-side parts are separate from each other except for at the one communication channel, and the plurality of downstream-side parts are separate from each other except for at the one communication channel; a cross-sectional area of each of the plurality of upstream-side parts is substantially constant to a point where it communicates with the communication channel; and each of the upstream-side parts has a shape extending linearly without a bend from an upstream end to the point where it communicates with the communication channel. 2. The stacked heat exchanger according to claim 1 , wherein due to a difference in at least one of channel shape, channel pitch, channel width, and channel depth, the plurality of upstream-side parts occupies the area in the low temperature layer that is less than the area occupied by the plurality of downstream-side parts in the low temperature layer. 3. The stacked heat exchanger according to claim 1 , further comprising a second high temperature layer that has a plurality of channels into which the high temperature-side fluid is introduced, the second high temperature layer being stacked on an opposite side of the high temperature layer from the low temperature layer. 4. The stacked heat exchanger according to claim 1 , wherein each of the upstream-side parts has the same length. 5. The stacked heat exchanger according to claim 1 , wherein each of the downstream-side parts has a shape extending in a wave shape or a zigzag shape. 6. The stacked heat exchanger according to claim 1 , wherein each of the downstream-side parts is different from the upstream-side part in at least one of channel pitch, channel width and channel depth, and has a shape extending linearly.