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Packaging Details:
1.All equipment are packed with wooden/carton box or wrapping film. 
2.All parts are fastened in container, guarantee that no damage while shipping.
Delivery Detail:
7-10 work days after receiving 30% prepayment.

Reverse osmosis is most widely known for being used to purify drinking water from sea water, removing salt and other waste water from water molecules.

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NETWORK SUPPORT

We provide various types technical support by providing e-mails

Q1.Are you a factory or trading company?

A1:We are a professional water treatment equipment and accessories manufacturing factory that set up for over 10 years.

We always pay attention to the development of  the industry!We can give a discount according to the quantity of the machine you purchase.

B1:At the same time,we take effective measures to control the production process for ensuring the quality of products.

Our products are certified.And we can supply SGS,ISO9001,CE certification.

Q2.Where is your factory located?How can I visit there? is porous, or uses nanofiltration with a pore size of 0.001 micrometers. The predominant removal mechanism is due to differences in solubility or diffusivity, and the process is dependent on pressure, solute concentration, and other conditions.

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Reverse osmosis (RO) is a water purification process that uses a partially permeable membrane to separate ions, unwanted molecules, and larger particles from drinking water. In reverse osmosis, applied pressure is used to overcome osmotic pressure, a colligative property that is due to the chemical potential difference of the solvent thermodynamic setting. Reverse osmosis can remove many types of dissolved and suspended chemicals as well as biological (mostly bacteria) from water and is used in both industrial processes and drinking water production. As a result, the solute remains on the pressure side of the membrane, and the pure solvent passes to the other side. To be "selective", this membrane must not allow large molecules or ions to pass through the pores (holes), but must allow the smaller components of the solution (such as solvent molecules, e.g. water, H 2 O) to pass freely. [one] In the normal process of osmosis, the solvent naturally moves from an area of ​​low solute concentration (high water potential) across a membrane to an area of ​​high solute concentration (low water potential). 

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The driving force behind the movement of the solvent is the decrease in the Gibbs free energy of the system when the difference in the solvent concentration on either side of the membrane decreases, creating an osmotic pressure due to the movement of the solvent into a more concentrated solution. The application of external pressure to reverse the natural flow of pure solvent is thus reverse osmosis. This process is similar to other applications of membrane technology. Reverse osmosis differs from filtration in that the fluid flow mechanism is based on osmosis through a membrane. The predominant removal mechanism in membrane filtration is tension or size removal when the pores are 0.01 micrometer or larger, so theoretically the process can achieve ideal efficiency regardless of parameters such as pressure and solution concentration. Instead, reverse osmosis involves the diffusion of a solvent through a membrane that is either not

7-1 Nagatachō, Chiyoda City, Tokyo 100-0014, Japan

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