SMVR ProductsPurposes of SMVR
Purposes of SMVR
01
Seawater Desalination
Future-oriented project to solve drinking water problem with high efficiency SMVR system
- As the problem of water shortage is getting serious by urbanization, industrialization, and climate change around the world, the technology for solving the drinking water shortage problem draws attention. Smart MVR_Distiller is a high efficiency equipment that is excellent in purifying sea water, river water and ground water to produce drinking water.
- Desalination of clean seawater clean is a profitable business in the islands because it can produce both drinking water and sterilized high-quality salts.
The existing (current) method |
RO Type |
- Large scale and requires large installation area
- Chemical treatment required
- Reverse Osmosis Filtration Method
|
Existing suppliers |
- Excessive management cost (filter replacement)
- It is complex and requires professional management person
- Pre and post treatment equipment is required
- Low technical level (intensified competition)
|
SMART MVR |
SMVR System |
- Small size and requires small installation area
- Water purification without chemical treatment
- Evaporative Energy Saving Equipment
|
Doowon’s Method |
- Management cost applied (1 ~ 1.5% / year)
- Simple and easy system configuration
- No pre or post treatment equipment is required
- High technical level (World top level)
|
Price calculation of salt production per day by MVR-desalination system
- Seawater Salinity : 3 ~ 3.5%
- Salt production when produces 1 ton (1,000 liters) of water : 10Kg (100 tons of sea water -> 1 ton of salt)
- Salt selling unit price (based on salt production amount) : 1,000 Won/Kg
- High salt concentration increases salt production, and the calculated amount above is only an estimated amount, so may vary depending on the situation.
- Contaminated sea water should not be used for producing edible salt.
- It can produce 100% sterilized edible salt because boiled uncontaminated seawater at a temperature of 100 degrees to produce drinking water, and high concentrated
water is sent to simple salt farm to produce salt.
Salt Production and Amount by Desalination Model
Model NO |
Daily Salt Production |
Monthly (based on 25 days) |
Yearly (based on 300 days) |
Salt Production |
Salt Sales |
Salt Production |
Salt Sales |
SMVR 25 |
250Kg |
6,250Kg |
6,250,000 |
75,000 Kg |
75,000,000 |
SMVR 50 |
500Kg |
12,500Kg |
12,500,000 |
150,000Kg |
150,000,000 |
SMVR 75 |
750Kg |
18,750Kg |
18,750,000 |
225,000Kg |
225,000,000 |
SMVR 100 |
1,000Kg |
25,000Kg |
25,000,000 |
300,000Kg |
300,000,000 |
SMVR 200 |
2,000Kg |
50,000Kg |
50,000,000 |
600,000Kg |
600,000,000 |
02
Domestic sewage water purification
The sewage generated is purified by apartment complexes and residential houses and flowed directly to the river
- As water shortage become more serious due to urbanization, industrialization and climate change, 'water reuse' technology is attracting attention. Water recycling technology refers to the purification of wastewater, such as rainwater or domestic sewage, so that it can be reused as “water for living, industrial water, river maintenance, etc."
- We treat and purify the domestic sewage produced by apartments and houses in the urban area through SMVR (Smart Mechanical Vapor Re-compression) to flow into the streams of the city, restoring the streams of the city and minimizing the amount of sewage sent to the sewage treatment plant to solve the problem of the sewage treatment plant. Before and after improvement.
03
Industrial wastewater purification
Industrial wastewater, such as factory sewage is purified and recycled into industrial water
- Industrial water is increasing due to the advancement of industrialization, and the amount of industrial wastewater is also increased, causing many complex environmental problems such as treatment costs and underground water pollution.
- Our SMVR system may contribute to solving environmental problem and industrial water shortage problem by purifying and recycling industrial wastewater to industrial water through SMVR (Smart Mechanical Vapor Re-Compression).
Water purification efficiency according to concentration of raw water (wastewater)
Influent wastewater concentration (%) |
Concentrated water (ton) |
Distilled water (ton) |
Water purification efficiency |
MVR influent wastewater volume (ton/day) |
0.5 |
5 |
95 |
95% |
100 |
1 |
10 |
90 |
90% |
2 |
20 |
80 |
80% |
3 |
30 |
70 |
70% |
4 |
40 |
60 |
60% (Decrease of investment value) |
5 |
50 |
50 |
50% (Decrease of investment value) |