RU2002104779A - The method of partial liquefaction of natural gas and installation for its implementation - Google Patents

Claims (4)

1. A method of partial liquefaction of natural gas, including pre-cooling and drying the direct flow of high pressure gas, separating part of the direct flow, expanding and connecting it to the return flow, cooling the direct flow, throttling and separation of the vapor-liquid mixture into vapor and liquid phases in the collector-separator characterized in that the vapor phase from the separator is divided into two streams, the first stream is directed through the first gas pressure regulator as a return stream for cooling the direct stream, and the second the second stream is re-condensed by heat exchange with the liquid phase, which is sent to the return stream, and the condensed phase is throttled into the liquefied gas collector to remove the vapor phase formed after the second throttling, and the temperature difference between the vapor and the liquid necessary for condensation provides either an increase vapor pressure, or lowering the pressure of the liquid. 2. Installation for partial liquefaction of natural gas, including a high-pressure gas source sequentially located in a straight stream, a heat exchanger for preliminary cooling and drying of gas, a heat exchanger, a throttle valve for the production stream, a vapor-liquid mixture collector-separator, and also an expansion device connected to the heat exchanger inlet on the direct flow line, and the outlet connected to the heat exchanger inlet on the return flow line, characterized in that it is equipped with a filter-separator ohm of solid particles and droplet liquid, installed after the heat exchanger for preliminary cooling and drying of gas, a second filter-separator and an additional heat exchanger, sequentially installed after the heat exchanger, a liquid level regulator, a liquefied gas reservoir, and the first and second gas pressure regulators installed on the line return flow before and after the second heat exchanger, a low-pressure manifold installed at the return of the return flow, and a remote evaporator-condenser m, the evaporation line of which at the inlet is connected through the liquid level regulator with a direct flow, and at the outlet - with the return flow after the first gas pressure regulator, and the condenser line at the inlet is connected to the vapor space of the collector-separator, and at the outlet through a throttle valve of liquefied gas connected to the collector tank of liquefied gas. 3. The installation according to claim 2, characterized in that the evaporation line of the evaporator-condenser at the inlet is connected through a liquid level regulator to the bottom of the collector-separator. 4. The installation according to claim 2, characterized in that a submersible condenser-evaporator is installed inside the collector-separator, which is connected at the input to the direct flow of the installation in front of the throttle valve of the production flow, and at the output through the bypass valve it is connected to the condenser line of the remote evaporator - a condenser and through a liquid level controller is connected to its evaporation line.