Mounting

Wastewater treatment

1. AQUACHLOR device
2. Brine tank
3. Catholyte filling for coagulation
4. Oxidants solution filling for wastewater disinfection
5. First settling tank
6. Oxidation process tank
7. Second settling tank
8. Filters
   

Depending on amount and level of bacteriological contamination of residential and industrial wastewater one AQ-100 or one or more AQ-500 devices are to be installed. Due to mono-block design AQ-100 installation is reduced to a minimum. Several AQ-500 systems are placed on a special prop which simplifies installation.

Oxidants solution is gravity fed into the wastewater treatment system at the last point before the treated water is discharged to river/lake. Catholyte produced in the process of electrochemical synthesis is used as a coagulant in settling process of wastewater treatment.

Municipal water treatment

1. AQUACHLOR device
2. Brine tank
3. Oxidants solution filling for initial disinfection
4. Catholyte filling for coagulation
5. Oxidants solution filling for secondary (final) disinfection
6. First pump
7. Mixer
8. Coagulation tank
9. Settling tank
10. Filters
11. Disinfected water tank
12. Second pump

Depending on the amount of water to be treated one AQ-100 or one or more AQ-500 devices are to be installed. Due to mono-block design AQ-100 installation is reduced to a minimum. Several AQ-500 devices are placed on a special prop which simplifies installation.

Two-staged water disinfection plan is commonly used. Initially water is disinfected when entering the disinfection system and finally water is disinfected before being supplied to consumers. There are options for several AQ devices installation: one group of devices used for initial chlorination only and the other group for secondary (final) chlorination only or all devices operate with common collection tank. Oxidants solution is gravity fed into the system or pumped
by means of dosing or water-jet air pumps. Catholyte produced in the process of electrochemical synthesis is used as a coagulant in settling process.

Swimming pools

1. AQUACHLOR device
2. Brine tank
3. Oxidants collection tank
4. Oxidants level sensor
5. Catholyte collection tank (for pH regulation)
6. Swimming pool
7. Pump
8. Filter
9. Filter
10. Ejector for oxidants solution filling
    

Depending on swimming pool’s volume AQ systems producing from 30 l to 100 l of oxidants solution per hour are to be installed. Due to AQ devices mono-block design installation is reduced to a minimum. Tap water and concentrated brine are input and conversed into oxidants solution in the process of electrochemical synthesis. Oxidants solution is pumped by Ejector into the swimming pool’s water. The Ejector is fit into the flow circuit of the pool’s disinfection system.

Connecting variants

AQUACHLOR devices can be connected by way of direct supply of the mixed oxidants solution to the stream of treated water or through the collecting tank.

Several AQUACHLOR devices are installed on a low carriage where all manifolds are located: catholyte collecting and taking manifold, water supply manifold, oxidants taking manifold, brine supply manifold. Devices are connected to manifolds by quick release coupling allowing to assemble and dismantle AQUACHLOR-500 devices in 5-7 minutes. Manifolds from the groups of devices are united in one system transporting oxidants solution to supply point through existing chlorine supply line.

Hydrogen out tubing is fixed at the ceiling or on the walls above the devices. Brine preparation equipment is placed in the same room, neighboring room or in the upper or lower floor. One device takes space not exceeding 0.2 m².

Further improvement of AQUACHLOR water disinfection technology will lead to optimization of hydraulic and automatic schemes with simultaneous connection of big number of AQUACHLOR-500 devices (from 100 to 1000). At present the biggest number of AQUACHLOR-500 devices operating at the one site is 18. However the project where over 100 AQUACHLORs will be installed at one site has reached the completion stage.

Determine quantity of AQUACHLOR-500 modules and required space

Number of AQ-500 modules	Production of oxidants (as liquid chlorine equivalent), kg/24 h	Disinfected water output at the oxidants amount of 1 mg/l, cubic m/h (one thousand cubic m/24 h)	Production of sodium hydroxide (100%), kg/h (kg/24 h)	Sodium chloride consumption (100%), kg/h (kg/24h), not exceeding	Power consumption, kWt/h, not exceeding	Space required for installation of electrochemical equipment (AQ-500 modules) including passage-way and servicing space, square meters.	Space for brine preparation equipment, square meters
1	0.5 (12)	500 (12,0)	0,6 (14,4)	1 (24)	1	3	4
2	1 (24)	1000 (24,0)	1,1 (26,4)	2 (48)	2	4	4
4	2 (48)	2000 (48,0)	2,2 (52,8)	4 (96)	4	6	6
6	3 (72)	3000 (72,0)	3,4 (81,6)	6 (144)	6	7	6
8	4 (96)	4000 (96,0)	4,5 (108)	8 (192)	8	8	8
10	5 (120)	5000 (120,0)	5,6 (134,4)	10 (240)	10	10	10
12	6 (144)	6000 (144,0)	6,7 (160,8)	12 (288)	12	12	12
14	7 (168)	7000 (168,0)	7,9 (189,6)	14 (336)	14	14	14
16	8 (192)	8000 (192,0)	9,0 (216)	16 (384)	16	16	14
18	9 (216)	9000 (216,0)	10,0 (240)	18 (432)	18	18	14
20	10 (240)	10 000 (240,0)	11,3 (271,2)	20 (480)	20	20	16
22	11 (264)	11 000 (264,0)	12,4 (297,6)	22 (528)	22	22	16
24	12 (288)	12 000 (288,0)	13,5 (324)	24 (576)	24	24	16
26	13 (312)	13 000 (312,0)	14,6 (350,4)	26 (624)	26	26	18
28	14 (336)	14 000 (336,0)	15,8 (379,2)	28 (672)	28	28	18
30	15 (360)	15 000 (360,0)	16,9 (405,6)	30 (720)	30	30	20