LNG Fueling Station Process

The process of LNG vehicle refueling stations consists of four stages: unloading process, pressure regulating process, refueling process, and pressure release process.

1. Unloading Process

There are three methods for transferring LNG from tanker trucks or containers to the LNG storage tanks at a gas station: turbocharger unloading, low-temperature pump unloading, and combined unloading using both a turbocharger and a low-temperature pump.

1) Turbocharger unloading: After unloading, the tank car needs to be depressurized by 0.2 to 0.3 MPa, which requires the release of a large volume of gas, taking a considerable amount of time.

2) LNG tank trucks and storage tanks are connected to the gas phase space, which is transported to the storage tank through low-temperature pumps. Disadvantages: High energy consumption, complex process flow.

3) Combined unloading of turbochargers and low-temperature pumps: First, connect the gas phase space of the LNG tank truck and storage tank, then disconnect. During the unloading process, use the turbocharger to moderately increase the pressure of the tank truck, and use the low-temperature pump to transfer LNG to the storage tank. Disadvantages of 30, 60, and 100 cubic meter LNG storage tanks: They consume electricity, produce vented gases, and have complex processes.

More often use the second method for unloading.

2. Pressure Regulation Process

The pressure inside the vehicle's gas cylinder is relatively high, typically ranging from 0.5 to 0.8 MPa. However, for transportation and storage, lower pressure is preferable. Therefore, before refueling a car, the tank needs to be pressurized. There are three methods: using a booster to increase pressure, using a pump for low-speed circulation to increase pressure, and combining both a booster and a pump for low-speed circulation to increase pressure.

3. Aerated process

After being pressurized by a low-temperature pump, the gas is metered and then filled into the vehicle's gas cylinders by a gas-filling machine, available in both single-line and dual-line configurations.

When the vehicle-mounted cylinder pressure is low, use the overhead sprinkling method to reduce pressure and decrease emissions.

When the pressure of the vehicle-mounted gas cylinder is high, a dual-line filling method is used, and the gas inside the cylinder is recycled back into the storage tank.

4. Pressure Relief Procedure

Excess pressure is released by the safety valve.

．Key equipment for LNG vehicle refueling stations

LNG Tank

Internal pressure design

External irrigation working temperature

Ambient Temperature

External irrigation design pressure

-0.1MPa

Effective Volume

Internal灌 pressure

0.45～0.8MPa

Filling Rate

90%

External irrigation working pressure

-0.1MPa

Evaporation Rate

Internal灌design temperature

-196℃

Infill Material

External irrigation design temperature

-19～50℃

External irrigation material

In-line filling operating temperature

-146℃

2. Low-temperature pump

Operating Temperature

-146℃

Design Head

220m

Design Temperature

-196℃

Maximum Head

255m

Design Flow

L/min

Required Net Positive吸入 Head

0.7～3.0m

2. Truck Unloading Turbocharger, Tank Turbocharger

Single-unit processing capacity

M3/h

Highest working pressure

0.8MPa

Imported Temperature

-162℃

Design Pressure

1.6MPa

Export Temperature

-146℃

Design Temperature

-196℃

3. Gas generator

Minimum nozzle pressure

0.41 MPa

Operating Temperature

-146℃

Traffic

0.15 cu/m/min

Measurement Accuracy

+0.5～-0.5%

Hose configuration

Single Tube