CFD Online Discussion Forums - pressure drop and two phase problem

I have narrow Vertical Rectangular channel, heated from both side. the flow direction is downward flow, normal flow velocity (1 m/s) at the inlet B.C and average static pressure at the outlet, the total length of the flow channel is 0.3 m so the static pressure at the outlet will be ( rho*g*h=2935 Pa). The first problem is regarding to the pressure and pressure drop, whereas the total pressure at the outlet is lower than the total pressure at the inlet, but in reality at the flow velocity (1 m/s) the total pressure at the outlet should be the higher than the inlet due to the static pressure term (gravity effect). I make the flow in downward direction but I couldn't find how to specify the gravity direction except by actuating the buoyancy option On, but even if I used this option, the result not changing.

The other problem that at the same power level and boundary condition, if I applied the wall boiling model, the wall temperature would decrease much. For example at 10 kW the maximum wall temperature is 115 C, and at that power there is boiling and bubbles. So if in need to see the void fraction, I shall apply the wall boiling model, and after that the wall temperature decrease to around 85 C, however at this temperature there is no boiling anymore. So my question is how to match the wall temperature before and after applied the two-phase model (Wall boiling model)?

Your time response is highly appreciated
Thank you so much
Best Regards
Omar Al-Yahia