Methods and systems of streaming refrigerant in a heat exchanger

What claimed is: 1. An shell and tube evaporator, comprising: a shell side; an inlet configured to direct refrigerant into the shell side; a first pan extending in a longitudinal direction of the evaporator in the shell side, the first pan configured to collect the refrigerant in the first pan to form a first refrigerant pool, and direct the refrigerant to flow along the first pan in the longitudinal direction of the evaporator to a first end and to a second end of the first pan; wherein the first end and second end are at opposite ends of the first pan; and a first plurality of longitudinally extended heat exchanger tubes positioned above a bottom of the first pan; and a second pan extending in the longitudinal direction of the evaporator, the second pan positioned below the first pan in a vertical direction of the evaporator and wherein the second pan extends beyond the first end and the second end of the first pan in the longitudinal direction of the evaporator; wherein the first refrigerant pool is configured to exchange heat with at least one of the first plurality of longitudinally extended heat exchanger tubes, and the second pan is configured to collect the refrigerant flowing out of the first end and the second end of the first pan to form a second refrigerant pool, and direct the refrigerant to flow along the second pan in the longitudinal direction. 2. The shell and tube evaporator of claim 1 , further comprising: a second plurality of longitudinally extended heat exchanger tubes positioned above a bottom of the second pan; wherein the second refrigerant pool is configured to exchange heat with at least one of the second plurality of longitudinally extended heat exchanger tubes. 3. The shell and tube evaporator of claim 1 , wherein the inlet is positioned about a middle portion of the evaporator, wherein the inlet is configured to direct refrigerant into the first pan at a middle portion of the pan. 4. The shell and tube evaporator of claim 1 , wherein: the first pan defines a pan space, the first plurality of longitudinally extended heat exchanger tubes are positioned in the pan space, the pan space is configured to collect the refrigerant directed by the inlet and direct the refrigerant to flow along the first pan in the pan space, and at least one of the first plurality of longitudinally extended heat exchanger tubes is configured to exchange heat with the refrigerant collected in the pan space. 5. The shell and tube evaporator of claim 1 , further comprising a sealing member at one of the first end of the first pan or the second end of the first pan, wherein the sealing member is configured to form a seal around at least one of the first plurality of longitudinally extended heat exchanger tubes, and when the level of the first refrigerant pool exceeds a height of the sealing member, the refrigerant flows out of the first pan and into the second pan.