Sterilization supply room water purifier is composed of a combination of multiple units of water treatment equipment. Our company design and production of disinfection supply room water purifier, on the basis of the raw water quality report provided by the user, after the accurate calculation of the computer software and the company's technical engineering staff to take advantage of the years of accumulated practical experience, more targeted and systematic design of a complete set of processing technology, so that the combination of the units between the equipment to match, reasonable and practical, and more pharmaceutical factories, hospitals, purified water production, infusion production Provides a very simple, reliable method, especially after the introduction of ultrafiltration, reverse osmosis and other new membrane separation technology, making the preparation of purified water for medical devices more secure, energy-saving, convenient.
Hospital disinfection and supply center (or supply room) is an important section for clinical departments to provide a variety of sterile equipment, under the dressings and other sterile goods. Water softening device:
1. Directly docked with the tap water, deep softening, to ensure the softening of water quality;
2. Fully automatic control, the softener automatically completes the work, regeneration, recycling;
3. With a front and rear stage filters, the growth of the resin use;
4. Compact structure covers an area of small. Program 1 Raw water tank → raw water pump → automatic multi-media filter → automatic activated carbon filter → automatic water softener → security filter → high-pressure pump → reverse osmosis host → pure water tank → mixed-bed system → water storage tank → pure water pump → ultraviolet sterilizer → bacteria → water point
Program 2 Raw water tank → raw water pump → automatic multi-media filter → automatic activated carbon filter → automatic water softener → security filter → water softener → water storage tank → water pump
Program 2 Raw water pump → automatic multi-media filter → automatic activated carbon filter → automatic water softener → water softener
Program 3. water softener → security filter → high-pressure pump → primary reverse osmosis host → pure water tank → EDI system → water storage tank → pure water transfer pump → ultraviolet sterilizer → bacterial filter → water point
Scheme 3 Raw water tank → raw water pump → automatic multi-media filter → automatic activated carbon filter → automatic water softener → security filter → high-pressure pump → secondary reverse osmosis host → water tank → EDI system → water storage tank → EDI system → water softener → water softener → security filter → high-pressure pump → secondary reverse osmosis host → water tank → EDI system → water storage tank → EDI system → water softener → water softener → water softener → water softener Water storage tank → pure water transfer pump → ultraviolet sterilizer → bacterial filter → water point 1, pure water production (calculated per hour)
2, pure water requirements of the water quality (such as how many megohms)
3, the raw water into the water quality of the water (such as tap water, surface water, deep-well water)
4, the production of pure water technology (process is not the same as the price is not the same)
5, for the production of what products
6, the configuration of the brand and the control mode (PLC automatic control, manual control) models and quantities. Hospital ultrapure water water samples preservation methods
1. will fill the container to overflow and sealed water samples in order to avoid the sample in transit oscillation, as well as oxygen in the air, carbon dioxide on the container of the sample components and the interference of the items to be measured, for the pH, BOD, DO, etc., the water should be filled with containers to the overflow and sealed for preservation. But for the preparation of frozen samples can not be filled with containers, otherwise the water frozen ice, due to volume expansion resulting in container rupture.
2. Refrigeration Water samples should be refrigerated at a temperature lower than the temperature of the water samples sampling, water samples collected immediately in the refrigerator or ice - water bath, placed in a dark place to save, generally in 2 ~ 5 ℃ refrigeration, refrigeration is not suitable for long-term preservation, the preservation of wastewater time is even shorter.
3. Freezing (-20 ℃) can generally extend the storage period, but need to master the melting and freezing technology, so that the sample in the melting can be quickly and uniformly restore the original state. When water samples freeze, the volume expands, generally choose plastic containers.
4. Add a protective agent (fixative or preservative) cast some chemical reagents can be fixed in the water samples of some of the components to be measured, the protective agent should be added to the empty bottle beforehand, some can also be added to the water samples immediately after sampling.