Factory Cheap Hot Water Plant Machine - Brine Electrolysis Online Chlorination System – Jietong Water Treatment
Factory Cheap Hot Water Plant Machine - Brine Electrolysis Online Chlorination System – Jietong Water Treatment Detail:
Explanation
Take food grade salt and tap water as raw material through the electrolytic cell to prepare a 0.6-0.8% (6-8g/l)low concentration sodium hypochlorite solution on site. It replaces high-risk liquid chlorine and chlorine dioxide disinfection systems, and is widely used in large and medium-sized water plants. The safety and superiority of the system are recognized by more and more customers. The equipment can treat drinking water less than 1 million tons per hour. This process reduces potential safety hazards related to the transportation, storage, and disposal of chlorine gas. The system has been widely used in water plant disinfection, municipal sewage disinfection, food processing, oil field re-injection water, hospitals, power plant circulating cooling water sterilization, the safety, reliability, and economy of the entire system have been unanimously approved by users.
Reaction Principle
Anode side 2 Cl ̄ * Cl2 + 2e Chlorine evolution
Cathode side 2 H2O + 2e * H2 + 2OH ̄ hydrogen evolution reaction
chemical reaction Cl2 + H2O * HClO + H+ + Cl ̄
Total reaction NaCl + H2O * NaClO + H2
Sodium hypochlorite is one of the highly oxidizing species known as “active chlorine compounds” (also often referred to as “effective chlorine”). These compounds have chlorine-like properties but are relatively safe to handle. The term active chlorine refers to the released active chlorine, expressed as the amount of chlorine having the same oxidizing power.
Process flow
Pure water → Salt dissolving tank → Booster pump → Mixed salt box → Precision filter → Electrolytic cell → Sodium hypochlorite storage tank → Metering pump
Application
● Water plants disinfection
● Municipal sewage disinfection
● Food Processing
● Oilfield reinjection water disinfection
● Hospital
● Power plant circulating cooling water sterilization
Reference Parameters
Model
|
Chlorine (g/h) |
NaClO 0.6-0.8% (kg/h) |
Salt consumption (kg/h) |
DC Power consumption (kW.h) |
Dimension L×W×H (mm) |
Weight (kgs) |
JTWL-100 |
100 |
16.5 |
0.35 |
0.4 |
1500×1000×1500 | 300 |
JTWL-200 |
200 |
33 |
0.7 |
0.8 |
1500×1000×2000 | 500 |
JTWL-300 |
300 |
19.5 |
1.05 |
1.2 |
1500×1500×2000 | 600 |
JTWL-500 |
500 |
82.5 |
1.75 |
2 |
2000×1500×1500 | 800 |
JTWL-1000 |
1000 |
165 |
3.5 |
4 |
2500×1500×2000 | 1000 |
JTWL-2000 |
2000 |
330 |
7 |
8 |
3500×1500×2000 | 1200 |
JTWL-5000 |
5000 |
825 |
17.5 |
20 |
6000×2200×2200 | 3000 |
JTWL-6000 |
6000 |
990 |
21 |
24 |
6000×2200×2200 | 4000 |
JTWL-7000 |
7000 |
1155 |
24.5 |
28 |
6000×2200×2200 | 5000 |
JTWL-15000 |
15000 |
1650 |
35 |
40 |
12000×2200×2200 | 6000 |
Project Case
Brine Electrolysis online Chlorination System
5kg/hr 6-8g/l
Brine Electrolysis online Chlorination System
3.5kg/hr 6-8g/l
Product detail pictures:
Related Product Guide:
Our goal is to satisfy our customers by offering golden service, good price and high quality for Factory Cheap Hot Water Plant Machine - Brine Electrolysis Online Chlorination System – Jietong Water Treatment , The product will supply to all over the world, such as: Argentina, Benin, Puerto Rico, We have constructed strong and long co-operation relationship with an enormous quantity of companies within this business in Kenya and overseas. Immediate and specialist after-sale service supplied by our consultant group has happy our buyers. Detailed Info and parameters from the merchandise will probably be sent to you for any thorough acknowledge. Free samples may be delivered and company check out to our corporation. n Kenya for negotiation is constantly welcome. Hope to get inquiries type you and construct a long-term co-operation partnership.
By Ingrid from Canberra - 2018.07.12 12:19
This company conforms to the market requirement and joins in the market competition by its high quality product, this is an enterprise that have Chinese spirit.
By Charlotte from Qatar - 2017.07.07 13:00