Introduction
LPG stands for Liquefied Petroleum Gas. It is a colorless, odorless, flammable gas composed of light hydrocarbons such as propane and butane. LPG is typically produced as a byproduct of the petroleum refining process and natural gas processing.
LPG Application
- Automotive fuel: LPG is used as an alternative fuel for vehicles and produces fewer emissions compared to gasoline and diesel.
- Cooking: LPG is used as fuel for both household and industrial stoves.
- Heating: LPG is used for heating homes and industries.
- Industries: LPG is used as a raw material in various industries such as plastics, rubber, and chemical production.
This unit is designed to produce LPG, butane and propane from the gases discharged from the top of the condensate stabilization tower, which was previously burned. This unit consists of two parts: process and storage. The process part of this unit consists of three parts: liquefaction, separation and purification of LPG and The liquefaction part consists of a cooling unit for liquefying the incoming gases, the separation part has three distillation towers for separating LPG from materials lighter than C2- and heavier than C5+, and a purification unit for separating sulfur components by the molecular sieve process, The capacity of this unit is 200 tons of LPG per day.
The simulation performed in the Aspen Hysys software is based on the industrial PFD map data of the Fajr Jam refinery itself. There is a video here that explains everything well. It should be noted that this industrial project has been completed with a very low error percentage (less than 5%). A part of the refinery map is shown below:
After purchasing this project, the simulation file, industrial maps, and training video will be sent to you. In addition, the complete description file of the operation instructions of the unit and the notes contained in the refinery documents for the “Kangan” natural gas project will also be sent to you on the previous files.
To purchase this project or get more information, please use the link below.