Automatic Cleaning UV Lamp Sterilizer Water Purifier

Prod Model:	YLC-3000
Markets:	North America,South America,Eastern Europe,Southeast Asia,Africa,Oceania,Mid East,Eastern Asia,Western Europe
UV Light:	UV-C 254nm Wavelength
Tube:	Quartz Tube
Water Inlet Hardness:	Less Than 120mg/Liter
Water Inlet Turbidity:	Less Than 1 Ntu
Water Inlet Iron Content:	Less Than 0.3 Mg/Liter
Water Inlet Manganese Content:	Less Than 0.05 Mg/Liter
Cleaning Model:	Hand-Cleaning, Rod Cleaning, Automatic Motor
Lifespan Of UV Lamp:	9000 to 12000 Hours
Control System:	Control Box, PLC, Remote Control, etc
Water Output:	1 to 500 Cubic Meter Per Hour
Type:	Lightwave Disinfection
Certification:	CE
Electric Tension:	220V
LCD Display:	With LCD Display
Ultra High Temperature Alarm:	Ultra High Temperature Alarm
Sterilization Information Recording And Printing:	Sterilization Information Recording and Printing
Material:	Stainless Steel
Theory:	UV Light Sterilization

Product Description

How UV Water Purifiers work
Ultraviolet (UV) light is invisible and is emitted by different light sources, including the sun. At certain intensities, UV light emits enough radiation to kill the DNA in bacteria and other microorganisms. An ultraviolet water purification system typically consists of a UV light source with an output of around 254 nanometers which produces radiation of a significantly greater intensity than the radiation produced by sunlight.
 The UV light source is mounted in front of a flow chamber through which water passes. The water is exposed to the UV light source as it passes through the chamber. Any harmful microbes and bacteria that are present in the water are rendered sterile by the exposure to the germicidal radiation.
UV radiation is so effective that it can eliminate up to 99.99% of bacteria and viruses, including those associated with water-borne illnesses such as Typhoid, Gastroenteritis, Hepatitis, Flu and Cholera. UV water purification can be used to treat water whether it's from a municipal water supply, a drinking-water well, lake or a spring.

Limitations in UV Water Filters
As remarkable as the technology is, ultraviolet water purification by itself is not enough to render water completely safe for drinking purposes. That's because UV radiation works only on microorganisms such as bacteria and viruses. UV light is of little use in eliminating other contaminants in water such as chlorine, heavy metals and VOC's (Volatile Organic Compounds).
VOCs are toxic, man-made chemicals that leach into ground water during the manufacture of products such as paints, petroleum products and refrigerants. Getting rid of such contaminants requires other types of filtration such as Granular Activated Carbon (GAC) filters and Kinetic Degradation Fluxion (KDF) processes for removing contaminants such as lead, iron, mercury and chlorine from drinking water.

Limitations in UV Water Filters

As remarkable as the technology is, ultraviolet water purification by itself is not enough to render water completely safe for drinking purposes. That's because UV radiation works only on microorganisms such as bacteria and viruses. UV light is of little use in eliminating other contaminants in water such as chlorine, heavy metals and VOC's (Volatile Organic Compounds).
VOCs are toxic, man-made chemicals that leach into ground water during the manufacture of products such as paints, petroleum products and refrigerants.
Application
1.Food processing industry, including juices, milk, drinks, beer, practical oil  and canned food.
2.Electronic industry.
3.Hospitals, various laboratory and high levels of pathogenic body water disinfection.
4.Households building, residential, office buildings, hotels, restaurants, water factories.
5.Purification and disinfection of shellfish, fish cleaning and disinfection
6.Military camp, field water supply system
7.Urban wastewater disinfection.
8.Swimming pool, other recreational water disinfection 
9.Thermal power, nuclear power plant  industrial, central air conditioning system cooling water.
10.Biological, chemical and pharmaceutical, cosmetics for the production of cooling water.
11.Sea water, fresh water breeding, aquaculture  water
12.Agricultural water disinfection

 
Principle of Operation
UV water disinfection system design has been carefully conceived to provide adequate germicidal dosage throughout the disinfection chamber. The dosage, as it applies to UV disinfection, is a function of time and the intensity of UV radiation to which the water is exposed. Exposure time is related to the flow rate, the higher the flow rate, the lower the exposure time or the lower the flow rate, the higher the exposure time. The UV intensity is the amount of energy, per unit time, emitted by germicidal lamp. The Dosage is the product of UV intensity and the exposure time.
 
Limitation of Use
The UV water disinfection system NOT intended for the treatment of water that has an obvious contamination or intentional source, such as raw sewage, nor is the unit intended to convert wastewater to microbiologically safe drinking water.
 
Water Quality (in)
Water quality plays a major role in the transmission of germicidal UV rays. It is recommended that the water does not exceed following maximum concentration levels
 
Effectively treating water with higher concentration levels than listed above can be accomplished, but may require added measures to improve water quality to treatable levels. If, for any reason, it is believed the UV transmission is not satisfactory, contact the factory.
UV wavelength (nm)
 
                 DOSAGE is the product of intensity & time
dosage=intensity*time=micro watt/cm2*time=microwatt-seconds per square centimeter
                              (μW-s/cm2)
               Note:1000μW-s/cm2=1mj/cm2(milli-joule/cm2)

 
 Technical parameters sheet 

model	capacity	Power	inlet-outlet	reactor	panel	Anchor	G weight
	m³/hour	watt	mm	L×W×H		screw	Kg
YLCn-005	0.3	16	1/2″	30×6×11			5
YLCn-008	1	25	1/2″	47×6.3×11			10
YLCn-050	2	40	1″	100×9×20	Φ8.9×25 (d×L)	69×4×Φ1	25
YLCn-150	6	80	1+1/4″	100×11×23		×Φ1	30
YLCn-200	8	120	1+1/2″	100×15.9×30	Φ8.9×45 (d×L)	69×7×Φ1	35
YLCn-300	12	160	2″	100×15.9×32		69×7×Φ1	40
YLC-050	2	40	DN25/1″	100×8.9×30	25×30×12 (W×H×D)	60×4×Φ1	45
YLC-150	6	80	DN32/11/4″	100×10.8×30		60×4×Φ1	50
YLC-200	8	120	DN40/11/2″	×		60×7×Φ1	60
YLC-300	12	160	DN50/2″	100×15.9×40		×Φ1	70
YLC-360	15	200	DN65/21/2″	100×15.9×40		60×7×Φ1	120
YLC-500	20	240	DN65/21/2″	×		60×11×Φ1.2	130
YLC-600	25	280	DN80/3″	100×21.9×50		60×11×Φ1.2	140
YLC-700	30	320	DN100/4″	100×21.9×50		60×11×Φ1.2	150
YLC-1000	40	360	DN100/4″	100×21.9×50		×Φ1.2	160
YLC-1200	50	400	DN125/5″	100×21.9×50		60×11×Φ1.2	180
YLC-1500	60	420	″	×		120×16×Φ1.4	210
YLC-2000	80	560	DN150/6″	170×27.3×57		120×16×Φ1.4	220
YLC-2500	100	700	DN150/6″	170×27.3×57	60×128×30 ×	120×16×Φ1.4	275
YLC-3000	125	840	DN150/6″	170×27.3×57		120×16×Φ1.4	300
YLC-4000	150	1120	DN200/8″	173×32.5×65		120×20×Φ1.6	325
YLC-5000	200	1400	DN200/8″	173×37.7×72		120×22×Φ1.6	350
YLC-7000	300	2100	″	175×42.6×80		120×24×Φ2.0	400
YLC-10K	400	2520	DN250/10″	176×52.9×95	60×150×40 ×	120×22×Φ2.2	475
YLC-15K	600	3080	DN300/12″	176×78×110		120×32×Φ2.4	600
YLC-20K	800	3920	″	Designated	Designated	Designated	Designated
YLC-25K	1000	4760	DN350/14″	Designated	Designated	Designated	Designated

installation instructions

1.Before install this equipment,please test the voltage for connection.normal running for UV lamp and ballast requires 240V.
2.There should be a 1.5 meter space for spared at each end(at least one end)for disassemble the quartz tube and UV lamp.then connect the water inlet and outlet
3.After connected the inlet and outlet pipe,then release the water to check whether there is any leakage at the nut connection.if it is leakage,screw the nut or check the sealing ring is cracked or not.pipe.please do not use too much force when screw the nut to avoid any cracking of tube.
4.The supporting frame must be grounding.
5.The UV lamp is inserted into the quartz tube through the nut with holes. the electric control panel is connected with 4-core plug and UV lamp. while connecting, two hands should handle the pin end and 4 core plug end respectively. Insert into  plug slowly to avoid possible break-up because of corrosion.