![]() The valve is necessary so that the pump does not run continuously after the well is depressurized. Pump is triggered by 2 sensors: pressure (over 550g) and gas sensor (natural). It is possible to lower the temperature by using a heat exchanger not with oil but with a copper/gold metal tile. The petroleum is then cooled in the upper heat exchanger (with oil) to about 90☌. The use of 2 turbines with separate chambers and the liquid shutoff made it possible to remove all the heat from the petroleum (its temperature at the outlet of the 2nd turbine is 118°С). In this way the petroleum stands under the turbines for a long time, giving off heat to the maximum. The circuit uses a filled pipe sensor (on the left side of the screen), the signal of which controls the petroleum outlet liquid shutoff. The petroleum is cooled by water to about 230°С and gives its heat to the turbines. ![]() The AT heats the water up to 500°С, which is supplied to the oil well, and the well starts to produce not oil (as in the simple variant) but petroleum at once. Then water cools petroleum in the left-side heat exchanger and heated to about 475°С enters the chamber with AT. Then water cools pump and oil well chamber. The ejector dispenses water to volumes equal to 1000 g. Then it mixes with the water coming from the turbines if the steam pressure is more than 20 kg/cell. The incoming water cools the turbines by heating.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |