TH703B - The process of producing natural gas into liquids with an exponential mixed refrigerant - Google Patents

Abstract

Process and system of primary cooling Liquefaction And additional cooling of the inrush containing mostly methane Like natural gas stream with double closed cooling system with mixed cooling agent Where the first set of coolants consists of two components, propane and butane, in the cycle of flash cooling with the second coolant consisting of nitrogen, methane, ether. The propane and butane are in the cooling circuit, adding the first refrigerant should be to cool the current sent into the plate and fin heat exchanger.

Claims (5)

1. Process for primary cooling Liquefaction And additional cooling to a stream containing large amounts of methane By means of a double closed circuit consisting of mixed cooling materials This includes a) Initial cooling to a high-volume, high-pressure methane mixture with a pre-mixed cooling agent. It consists of two components, propane and butane, in a selected proportion to optimize the entire process in the flash chilling cycle. B) Liquidation of most methane-containing currents with a second mixed refrigerant; c) additional cooling with a current containing The methane is mostly by heat transfer to the second combination cooling medium d) the pressure of the first mixed cooling medium. And additional cooling It then transforms into droplets from the cooling liquid from the outside. E) The first set of cooling objects to reduce the pressure. And the temperature down by the flashing method in order to cool the incoming current with the coolant in a multi-stage heat exchanger; f) Pressing the mixed cooling medium. Second, and additional cooling with external cooling liquid; g) second cooling with mixed coolant with first mixed coolant. Before the liquidation And additional cooling of the incoming current with the refrigerant in different stages of the heat exchanger 2. Process according to claim 1, in which the first mixed cooling agent performs the primary cooling function. With a large majority of methane currents in a heat exchanger that provides the same flow of cooling material without much of the liquid mixture into the vapor Student 3. The process according to claim 2, in which the cooling object flows into the heat exchanger plate. And fins, multi-step types. 4. The process of initial cooling. Fluidization And additional cooling with the current containing Most methane by a multiply closed circuit method consisting of a mixed refrigerant cooling circuit consists of a) Primary cooling against high-pressure gas currents composed mainly of methane with a given material. The first blended chiller contains propane and butane in the selected proportions to optimize the entire process. In the first heat transfer machine Which provides the flow of cooling material in the same direction The liquid part does not mix with the vapors of the extreme cold and the coolant is then cooled by a flash method to bring the coolant to temperature. B) A flow of mostly methane, which has undergone preliminary cooling, is converted to a liquid by first heat transfer in a second heat exchanger with an object. The first mixed chiller contains nitrogen, methane, ethane, propane and butane, in which the refrigerant is cooled in the additional cooling cycle by reducing the stress. And by transferring heat to itself; c) additional cooling against the current containing Most of the methane has been converted to a liquid with a second combination refrigerant where the cooling object has been cooled from the cooling cycle d) the pressure of the object. The first mix is cooled to a pressure level of 75 to 250 Paia and is added to the refrigerant that has been pressured. E) The first separation of the first mixed cooling material into lateral and residual currents, which is depressed by the flashing method, and which serves as the primary cooling to The methane current is sent into the heat exchanger to a relatively high temperature first before it is recirculated for a new pressure. F) Pressure reduction by flash flux to the side current of The coolant and separates into a stream in a vapor state for the return of pressure to the liquid part; g) the liquid separation of the said cooling object in f to Second lateral stream With the residual current, the secondary current of the cooling medium, which is depressed by flashing and preliminary cooling, the methane current is transferred to an intermediate temperature inside the heat exchanger before being Returned to receive additional pressure h) Reducing pressure by means of flushing to the lateral currents of the second cooling medium. And separated into vaporized parts to be sent back to pressure with the liquid part i) further pressure reduction by the flashing method, which is given to the cooling object in liquid state of Second side stream And preliminary cooling of the methane current to a low temperature inside the heat exchanger before returning the refrigerant to a new pressure. J) Pressure to the combined cooling medium at Two of b To a pressure of approximately 450 to 850 Psia and add the coolant to the coolant with an external cooling liquid k) Add cooling to the second mixed coolant with a type First mix inside the first heat exchanger. L) The pressure drop of the second mixed cooling medium and the heat, with a part of itself, to cool before transferring heat to the current. Methane is injected in order to turn it into a liquid. And add more cooling before sending the cooling material back to receive new pressure 5. The process according to claim No. 4, in which the first mixed cooling material has been pressure in stages. Rights No. 5, in which the second mixed refrigerant is subjected to multiple stages of pressure, with cooling during the pressure process 7. The process of claim No. 4, where the cooling object The first mixed cooling medium was applied to the mostly methane-containing currents in the plate and fin heat exchanger 8. Process according to claim 7 where the first mixed cooling medium Flow into plate and fin heat exchanger 9. Process according to claim 4, in which the cooled methane stream of C stage is pressure lowered. In order to separate the vapor into fuel gas And the liquid part that is the product of methane 1 0. Process according to claim 10, in which the fuel gas is heated up with a second combination refrigerant 1 1. The movement according to claim 10, in which fuel gas is used as energy for the liquidation process 1. 2. Initial cooling system Liquefaction and additional cooling per methane-containing streams By means of a multiplex cooling object using a mixed cooling object, it consists of a) a multistage plate and fin heat exchanger with sections designed, sized and arranged for adjusting the temperature levels of the objects It provides the first mixed cooling and has an internal channel for initial cooling of the methane stream supplied by the refrigerant and where the cooling medium is composed of two components: propane and bi. The material at the heat exchanger allows the cooling object to flow in the same direction without the mixing of large volumes of liquid into the vapor. B) Multi-stage heat exchanger. The second is for fluidization. C) A device for supplying the liquid methane stream to the containment source. Or for export; d) Multi-stage pressure press To apply the pressure to the first mixed refrigerant to approximately 75 to 250 Psia e) the additional cooling device. To reduce the temperature of the first mixed coolant to a first low temperature; f) Shipping equipment. And separation by the flash fling method of the first mixed cooling material at different cooling levels. To a plate heat transfer machine And multistage flanges In order to provide preliminary cooling to the inrush current. G) The device for the return of the first high temperature and vaporized combination refrigerant to the lateral pressurization. H) Pressurizer for pressureing a second mixed refrigerant to a pressure of 450 to 850Psia i) a second refrigerant delivery device that is pressurized. Then pass through additional cooling equipment And plate and fin heat transfer machine J) a separator for the separation of the second mixed coolant into a vapor K) The separation device delivers each second batch of mixed cooling material to the second multi-stage heat exchanger in point b above in order to cool the object. The coolness of its own And to make the incoming methane flows more liquid and cooled; l) a second high-temperature mixed refrigeration device to the pressure unit in h above 1 3. Operation system according to claim 12, in which the equipment for the aforementioned first-in-the-combination cooling medium consists of three delivery routes to the heat exchanger.1 4.The system of operation according to claim 12 includes a separator for separating the vapor fuel gas from the liquid methane stream. From a second heat exchanger after the current has been reduced in pressure 1 5. The operating system according to claim 14 includes a heat exchanger to utilize the cooling material from the stream of the fuel gas in the vapor state of the second mixtures to be used again.