Evaporator and refrigeration system

The invention claimed is: 1. An evaporator comprising: a casing that internally has a liquid phase region for accommodating a liquid refrigerant and a gas phase region for accommodating a gas refrigerant obtained after the liquid refrigerant evaporates, and that includes an evaporator outlet for discharging the gas refrigerant to the gas phase region; a plurality of heat transfer tubes that are immersed in the liquid refrigerant of the liquid phase region, and into which a fluid having a temperature higher than that of the liquid refrigerant flows; and a demister that is disposed to cover a liquid surface of the liquid refrigerant accommodated in the liquid phase region from above, and that collects a droplet contained in the evaporated gas refrigerant, wherein the demister formed in a mountain shape includes two inclined portions that separate from the liquid surface toward a central portion of the casing along the liquid surface, in a sectional view intersecting an axis of the heat transfer tube, wherein the casing includes two support portions that support an end edge of the demister on a side close to the liquid surface from below, and wherein the support portion includes a support portion main body that extends toward the center from the inner surface of the casing above the liquid level and on both side positions in the width direction of the casing, and a fixing portion that extends downward from a base portion of the support portion main body along the inner surface of the casing, wherein the support portion main body includes a penetrating portion that vertically penetrates between the end edge and an inner surface of the casing, in the sectional view intersecting the axis of the heat transfer tube. 2. The evaporator according to claim 1 , further comprising: a blowing-up prevention plate that is formed along the demister, in the sectional view intersecting the axis of the heat transfer tube, and that is disposed at a position overlapping the evaporator outlet in a direction of the axis. 3. The evaporator according to claim 1 , wherein in the sectional view intersecting the axis of the heat transfer tube, the number of the heat transfer tubes aligned in a direction intersecting the liquid surface which are located at a position close to the central portion is larger than the number of heat transfer tubes which are located at a position close to an end portion of the casing in a spreading direction of the liquid surface. 4. The evaporator according to claim 2 , wherein in the sectional view intersecting the axis of the heat transfer tube, the number of the heat transfer tubes aligned in a direction intersecting the liquid surface which are located at a position close to the central portion is larger than the number of heat transfer tubes which are located at a position close to an end portion of the casing in a spreading direction of the liquid surface. 5. A refrigeration system comprising: the evaporator according to claim 1 .