RO Membranes are semipermeable membranes used in Reverse Osmosis systems to filter out dissolved solids, impurities, and contaminants from water. They play a crucial role in producing high-quality purified water for drinking, industrial applications, and wastewater treatment by allowing only water molecules to pass through while rejecting larger molecules and ions.
Capacity: 100 CMD/500CMD/1000~6000CMD
Origin: Malaysia
Price: USD100K or more
Loading Port: Malaysia/Taiwan
Min Cost: USD100K
Max Cost: USD3M
Guarantee: 5 Years
Specifications
1.Model:LP21-4040
2.Reject(%):99.5
3.Average Permeate GPD(m3/d):2400(9.1)
4.Active Membrane Area ft2(m2):85(7.9)
The LP (low pressure) series of aromatic polyamide compound membrane element developed by Vontron Technology Co., Ltd. has the properties of low-pressure operation, high permeate flow and excellent desalination and are applicable to desalination of brackish water. Besides, it is particularly applicable to fabrication of high-purity water for electronic industry and electric power industry owing to its excellent performance in removing soluble salts, TOC, SiO2, etc.
Being suitable for desalting such water sources as surface water, underground water, tap water and municipal water, etc., LP series is mainly applicable to treatment of various industrial water such as industrial-purpose pure water, boiler water replenishment in power plant, and can be also applied to such brackish water applications as treatment of high-concentrated saline wastewater and production of beverage-purpose water.
An ultrafiltration (UF) plant is a facility that utilizes ultrafiltration technology to separate contaminants from water and wastewater. UF is a membrane filtration process that operates under pressure to remove suspended solids, bacteria, viruses, and large organic molecules from liquids.
An effluent treatment plant (ETP) is a facility designed to treat wastewater before it's released into the environment or reused. ETPs are crucial for managing wastewater from industries, sewage systems, or any source of liquid waste to prevent pollution and protect public health.
Key Components of an ETP:
Preliminary Treatment: This involves removing large solids and debris through screening and grit removal.
Primary Treatment: Here, the wastewater is allowed to settle in large tanks, separating solids from liquids. The solids, known as sludge, are removed for further treatment.
Secondary Treatment: This stage typically involves biological processes where microorganisms break down organic matter. Common methods include activated sludge systems and trickling filters.
Tertiary Treatment: This advanced treatment focuses on removing remaining impurities, including nutrients like nitrogen and phosphorus. Techniques can include filtration, chemical treatment, or advanced oxidation.
Disinfection: Before discharge or reuse, the treated water is disinfected to eliminate pathogens, often using chlorine, UV radiation, or ozone.
Sludge Management: The sludge generated during treatment is further processed, which can involve digestion, dewatering, and sometimes incineration or landfilling.
