Introduction:
In the rapidly evolving landscape of water treatment, the demand for pure and contaminant-free water has never been more crucial. As industries worldwide seek reliable solutions to ensure the quality of their water supply, the Industrial Reverse Osmosis (RO) Plant emerges as a transformative technology. In the heart of this revolution stands our manufacturing facility in Guangzhou, China, dedicated to producing cutting-edge water treatment systems tailored for diverse industrial applications.
I. Understanding Industrial RO Plants:
Industrial RO Plants have become indispensable in various sectors due to their unparalleled ability to purify water by removing impurities, contaminants, and unwanted particles. The process involves forcing water through a semi-permeable membrane, effectively eliminating ions, particles, and other impurities. This results in a purified water stream that meets stringent quality standards, making it suitable for a multitude of industrial processes.
II. The Guangzhou Advantage:
Situated in the vibrant city of Guangzhou, our manufacturing facility is at the forefront of the water treatment industry. With a commitment to excellence, we leverage state-of-the-art technology and innovative engineering to design and produce Industrial RO Plants that set new benchmarks in performance, reliability, and efficiency.
III. Tailored Solutions for Diverse Industries:
Our Industrial RO Plants cater to a wide array of industries, including but not limited to pharmaceuticals, food and beverage, power generation, electronics, and chemical processing. Each system is meticulously crafted to meet the unique water treatment requirements of the specific industry it serves. Whether it's eliminating trace contaminants in pharmaceutical production or ensuring boiler feedwater quality in power plants, our RO Plants are the cornerstone of water purification.
Main Technical Parameters:
| Model |
Flow rate (L/h) |
Power(KW) |
Water use efficiency |
RO membrane |
Dimension
L X W X H(mm) |
| RO-500L |
500 |
1.5 |
≥ 50% |
4040 |
1650X630X1800 |
| RO-750L |
750 |
2.5 |
≥ 50% |
4040 |
1870X630X1850 |
| RO-1000L |
1000 |
2.5 |
≥ 50% |
4040 |
1870X650X1850 |
| RO-2000L |
2000 |
3.5 |
≥ 50% |
4040 |
2440X650X1750 |
| RO-3000L |
3000 |
4 |
≥ 50% |
4040 |
2440X620X1850 |
| RO-5000L |
5000 |
7.5 |
≥ 50% |
8040 |
2000X900X1800 |
| RO-6000L |
6000 |
9.5 |
≥ 60% |
8040 |
3000X900X1800 |
| RO-8000L |
8000 |
13.5 |
≥ 60% |
8040 |
3000×900×1800 |
| RO-9000L |
9000 |
14 |
≥ 60% |
8040 |
4000X900X1800 |
| RO-10T |
10T/H |
19 |
≥ 60% |
8040 |
3000X900X1800 |
| RO-12T |
12T/H |
19.5 |
≥ 60% |
8040 |
4000X900X1800 |
| RO-15T |
15T/H |
23 |
≥ 60% |
8040 |
4000X900X1950 |
| RO-20T |
20T/H |
28 |
≥ 60% |
8040 |
5000X900X1950 |
| RO-30T |
30T/H |
55 |
≥ 60% |
8040 |
7000X900X1950 |
How Do I Know Which Size Unit to Buy?
General guidelines for modeling an RO system to take into consideration are the silt density index (SDI) measurement of the feed water after pretreatment. Derived from experience, limits on permeate flux and element recovery for different types of waters are based on correlation of the SDI value with membrane fouling and mineral content with element recovery, respectfully, for different types of waters. These general limits shown in Table 1 below serve as boundary conditions when designing a RO system. A system designed with high permeate flux rates for example is likely to experience higher fouling rates and more frequent chemical cleanings. Due to high salinity (>36,000 ppm TDS), seawater system designs are further limited by the osmotic pressure and durability of the membrane elements.
What should i prepare when i need a quote ?
Raw water condition: Water Quality Analysis Report / TDS
Raw water source: Tap water, groundwater, seawater, or river water etc.
What does water use for: Drinking water, domestic water, breeding, irrigation, printing and dyeing, , cosmetics, etc.
Quantity: How many do you need for water treatment machine
Basic project: Water yield, material, quantity, operation mode, power supply voltage, etc.
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