详情描述

I. Technical Principle

Membrane separation technology is a technique that achieves gas separation by utilizing different permeabilities of a thin film material for various gases.

Drive force: The pressure difference between the retention side (inside the hollow fiber) and the permeation side (outside the hollow fiber). The higher the difference, the greater the proportion of gases passing through the permeation membrane.

The permeation rate of gases depends on the solubility and diffusion rate of the membrane material. Different gases permeate through membrane materials at different rates. By exploiting the permeation rate difference between methane and carbon dioxide, carbon dioxide can be separated from biogas, thereby increasing the purity of methane in the biogas.

Section II: Technical Advantages

★ High methane purity, low operation cost

★ Skid-mounted equipment, short process flow, compact structure, small land area

★ No additional auxiliary materials; no secondary pollution

★ The system's startup and shutdown are completed within short intervals, offering high flexibility.

Section 3: Process Flow

Membrane purification primarily consists of three parts: gas pretreatment, pressure system, and membrane separation system. Systems can be designed as single, double, or multi-stage based on the client's requirements for methane purity and yield.