Acid Ro Membrane Antiscalant Dh150

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.

Industrial RO

Alkalinity RO membrane antiscalant DH191

Product features and advantages
DH191 is one kind of alkalinity antiscalant.
can be used to control the fouling of membrane separation system and reduce particle clogging.
Can control the formation of calcium carbonate, calcium sulfate, barium sulfate, etc..
It can prevent the scaling of calcium carbonate when LSI reaches 3.
DH191 applies to all major reverse osmosis membranes.
No adverse effects on the environment, especially suitable for the district where has special requirements on wastewater discharge.
Typical properties
Appearance Clear colorless liquid
Specific gravity 1.3-1.35
pH(5% water solution) 10-11
Odor Slight ammonia
Adding and controlling
DH191 should be continuously added to the last level security filter. This product should be injected into the water supply pipe by diluting water tank or packing barrel. The operation parameters of the specific dosing ratio depends on the water quality and membrane system.You can ask dosing software or technical personnel determined.
Safety
Do not touch eyes and skin.More information please see the MSDS.
Packing
Conventional packaging for 25kg plastic barrels or IBC barrels. If you have special needs, please contact your sales consultant.

Seawater desalination solution
Brackish Water Reverse Osmosis Solution

BW is a modular, containerized Brackish Water Reverse Osmosis (BWRO) system, designed for efficient and flexible water desalination in various sectors.
BWRO is a type of desalination process that utilizes reverse osmosis membranes to remove dissolved salts and other impurities from brackish water.

Key Features
Modular & Scalable: Housed in 40-foot containers, easy to transport, install, and expand.
Flexible Feedwater Tolerance: Handles water with up to 10,000 ppm TDS, including well and surface water.
High Efficiency:
Recovery rate: Up to 90%
Energy use: As low as 0.65 kWh/m
Two Main Models:
BW LS (Low Salinity): Up to 3,700 ppm TDS
BW HS (High Salinity): Up to 10,000 ppm TDS
Capacities Available: 1,000 or 20,000 m/day
Availability: 97%
Automation: Fully automated with PLC/HMI and remote monitoring

The system is a modular, containerized seawater desalination system designed for rapid deployment, low environmental impact, and high efficiency. Housed in standard 40-foot ISO containers, these units provide pre-treatment, reverse osmosis (RO), and energy recovery in a compact form, ideal for industrial, municipal, commercial, and remote sites.
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Key Features & Advantages:
Cost-effective: Pre-assembled units minimize setup time and costs.
Sustainable: Low energy and chemical consumption with up to 50% recovery rate.
Compact & Scalable: Small footprint enables flexible deployment and easy expansion.
Smart Operations: Fully automated with remote monitoring, alerts, and centralized control options.
System Options:
Pretreatment: DAF, multimedia filters, activated carbon, clarification
Post-treatment: Remineralization, pH adjustment, UV/chlorine disinfection
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Deployment Models:
The unit, scalable up to 20,000 m/day.

Applications
Ideal for:
Municipalities
Resorts, hotels, golf clubs
Construction sites
Industrial plants
Agriculture & irrigation
Mining & oil/gas operations
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System Options
Pre-treatment: Hypochlorite dosing, solids/oil removal
Post-treatment: Remineralization, pH adjustment, chlorination
Monitoring & Control: Remote access, real-time alerts, data reporting
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Advantages
Low capital (CAPEX) and operational (OPEX) costs
Fast deployment and commissioning
Low environmental impact
Easily scalable for large-scale or decentralized solutions
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Note: The prices provided are for reference only and may be subject to change.

Municipal Water & Wastewater Solutions

Decentralized and sustainable water, wastewater, and reuse solutions. We offers scalable, cost-effective, and rapid-to-deploy systems for municipal, industrial, hospitality, and remote community applications.

Core Technologies & Solutions
1. Modular containerized wastewater treatment using:
MABR (Membrane Aerated Biofilm Reactor)
MBR and activated sludge
For populations of 50 to 3,000 (up to 250,000 GPD)
Energy-efficient, low-maintenance, compact
2. Wastewater treatment upgrades or greenfield plants using MABR:
Retrofit existing plants or build new
Improve effluent quality, increase capacity, reduce energy usage up to 30%
Small or zero footprint, fast installation
3. Pre-packaged extended aeration systems:
For flow rates from 200 to 2 million GPD
Simple operation and installation
Suitable for rural and small municipal systems
4. Shortcut nitrogen removal for high-strength wastewater:
Uses MABR
Reduces energy by 40% and TIN by over 90%

Water Treatment Solutions
1. We Containerized systems for:
Seawater (SW) Up to 1,500 m/day per unit
Brackish water (BW) Recovery rates up to 90%
Freshwater (FW) Up to 5,000 m/day
Pre-engineered, modular, compact, low-energy

Note: The prices provided are for reference only and may be subject to change.

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.