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INNOVATIVE WATER TREATMENT
TECHNOLOGIES
CASCADE RESEARCH AND PRODUCTION
ASSOCIATION LLC
Copyright © “CASCADE” 2015
All rights reserved
ELECTROMAGNETIC VORTEX LAYER REACTOR
(EVLR)
- is a small-size system for treatment of domestic and industrial sewage, bringing them up to meet the requirements of theexisting standards for treated effluent discharge into water bodies for commercial fishing uses, and for treatment of waterof open water bodies bringing it up to today's environmental standards applicable to water.The operating principle is based on a unique technology using electromagnetic vortex layer energy.
Copyright © “CASCADE” 2015
All rights reserved
EVLR
fertilizers in real time
shredding of solids in liquid dispersion phases
activation of solid particles' surfaces
modification of physical and chemical properties
of substances
agricultural waste processing into
environmentally safe effluents
mixing of substances in any aggregate states
Sewage Treatment
*The classification of processes achievable in EVLR is based on the end result of treatment.
By its functional, the technology is a system for deeper processing of effluents.The technology is universal, as it treats sewage with equal efficiency in all aspects presented.
KEY ADVANTAGES OF USING EVLR:
minimum initial investments: major reconstruction of buildings not required, existing equipment may beused, low material consumption, compact arrangement;
environmental safety, reliable operation and easy control;
moderate operating costs: energy resource saving, reliable and simple operation, inexpensive rawmaterials, small area occupied;
full automation and compatibility with other technologies are enabled;
labor-consuming and costly phases of bio treatment and chlorination are avoided;
the cake obtained is completely safe and requires no special conditions for disposal (meets Hazard Class4 or 5 as per RF GOST standard).
EVLR TASKS AND FEATURES AS APPLIED TO
SEWAGE TREATMENT
EVLR SEPARATES SEWAGE FROM:
inorganic and organic compounds; pathogenic microflora; oil products;
Effluents treated with this technology meet the standards for discharge to water of commercial fishing bodies
and to urban collection network.Optionally, chlorine-free treatment of large and small swimming pools, private or public, may be provided.
Mission: solving the worldwide environmental problem by 100% treatment of effluents and further use of processingproducts, electric energy saving, and higher efficiency of resources used.
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SAA; nitrogen compounds; phosphorus; heavy metals.
EVLR TECHNOLOGIES CAN EFFICIENTLY TREAT SEWAGES OF THE FOLLOWING PRODUCTIONS:
COMPARING THE EFFICIENCY OF INDUSTRIAL
FACILITY SEWAGE TREATMENT USING EVLR
No. ParameterUnit ofmeasure.
Pollutant parameter resuction afterEVLT sewage treatment, times
1 Color deg 15-20 times
2 Suspended matter mg/dm3 300-400 times
3 Iron (total) mg/dm3 150-200 times
4 BOD5 (Biochemical Oxygen Demand) mgO2/dm3 8-10 times
5 COD (chemical oxygen demand) mgO2/dm3 8-10 times
6 Chloride ions mg/dm3 5-8 times
7 Ammonium ion mg/dm3 50-60 times
8 Phosphate ion mg/dm3 5-10 times
9 Sulfate ion mg/dm3 5-10 times
10 hydrogen exponent pH Normal 7.2-7.5
11 Oil products mg/dm3 10000-30000 times
12 Anionic surfactants mg/dm3 150-500 times
13 Odor fecal 20-50 times
14 Coloration 5-10 times
15 Phenol mg/dm3 up to 50 times
Copyright © “CASCADE” 2015 All rights reserved
Based on the reuslts of treatment of various sewages, averaged pollutant reduction figures are presented.
*The list in the table is not exhaustive.
The EVLR technology, due to its deep processing of pollutants, enables handling heavy effluents, significantly
reducing the impurities after treatment.
TREATMENT PLANT FLOW CHART
Polluted effluents are fed with pump (3) from equalizing container or sewage pumping station (4) to EVLR receiving duct(6), to which reagent is simultaneously fed from reagent tank (1) with metering pump (2). EVLR is power supplied withinverter (5).
and clarified to the required extent. The filters' parameters and type are defined in a particular specification. From the filtering stage, effluents are fed with pump (20), via flowmeter (21) metering the total amount of effluents treated, to electronic analyzer sensor (22) monitoring in real time the essential sewage parameters: pH, temperature, conductivity, dissolved O2, ORP (oxidation reduction potential), turbidity, active and free chlorine content etc. To a signal from analyzer(22) to the sewage treatment duct, if the sewage parameters do not meet the specifications, UV irradiator (ozonizer) (9) is activated, or carbon dioxide is fed from cylinder (7) to adjust pH, by opening EM (electromagnetic) valve (10). All information from sensors and EVLR operating modes are displayed on the operator's sensor panel (23) at the workplace, and transmitted via the interface to remote computer (24). Treated sewage is fed further as intended (25). All
components of the system operate controlled by APCS (automatic process control system) on the basis of SCADA.
Effluents treated in theEVLR active zone are fedto vertical settler system(13-14,1….N) with stepwiseoverflow for sludgeprecipitation. Theprecipitating sludge to asignal of timer (8) or to asignal of micro controller
(23) is dumped to sludgeground (11) via EM valves(12…15). From the laststage of the settlers,effluents are fed withpump (17) to filters (systemof self-cleaning filters) (18),where they are filtered
CONFIGURATION AND CHARACTERISTICS
Electromagnetic vortex layer reactor (EVLR, with th efunction of semi-automatic charging of ferromagnets);
frequency converters for EVLR control: As per the Customer's Specification (Spec) ;pump equipment;
bank of hydrocyclones;
sludge removal system;
second stage set of filters;
reagent facility containers (m3) - as per the Customer's Spec;
the station of reagents preparation and metering : As per the Customer's Spec;
industrial sewage ozonizing plant with an ozone destroyer: 1 ea.;
pipelines and shutoff valves;
medium-voltage equipment;
APCS;
other auxiliaries.
1. Sewage treatment capacity: 2 m3 /h to 4,000 m3/h
2. Water treatment capacity: 2 m3 /h to 4,000 m3/h
3. Design per hour power consumption for treatment of 1 m3 of water: 0.35-0.75 kW*h.
4. The entire set of local treatment plants is arranged in one module and has a high factory readiness for installation and start-up;
5. Load supply category - II;
6. Auxiliary accumulating tanks: To be provided by the Customer.
CHARACTERISTICS:WATER TREATMENT LINE CONFIGURATION:
Copyright © “CASCADE” 2015
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River water before EVLR treatment
River water after EVLR treatment
Untreated phenol Phenol after treatment
TEST EXAMPLES
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WATER AFTER TREATMENT OF PIG FARM
SEWAGE
Pig farm
sewage after treatment
for 1 minute
Efficient use of EVLR - bacteriological and biological treatment, odor removal, and clarification of agricultural sewage on-line (time of physical passage of effluents through the reactor).
Copyright © “CASCADE” 2015
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Pig farm sewage before
EVLR treatment
Water after treatment
of pig farm sewage
Untreated water and synthetic surfactants with oil
products, airport
Airport, water before and after treatment
Treatment of complex sewage containing oil products, synthetic surfactants, and deicing chemicals, was done to a level 300 times lower than the maximum permissible "fishery" standards (i.e. for drainage to open bodies of water).
TREATMENT OF COMBINED STORM AND OILY SEWAGE OF THE
AIRPORT OF SYKTYVKAR
Copyright © “CASCADE” 2015
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About the developer / PATENTS
The team of designers pursues research and production activities jointly
with leading RF institutes and academies in petrochemistry, agriculture, and construction.
The cooperation agreement signed withthe Moscow State Academy of Communal Services and Contruction for industrial and domestic sewage treatment indicates that the company's achievements are highly
appreciated by the government.
Copyright © “CASCADE” 2015
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ESSENTIAL PARTNERS
Copyright © “CASCADE” 2015
All rights reserved
Public Water Supply and Treatment Research Institute
http://www.niikvov.ru/
Gubkin Russian State University
http://www.gubkin.ru/
Moscow State Academy of Communal Services and Contruction
http://www.mgakhis.edu.ru/home
Syktyvkar Forestry Institute
http://www.sli.komi.com/
Tver State University of Technology
http://www.tstu.tver.ru/
Postal address: 167000
Republic of Komi Syktyvkar
98 Internatsionalnaya Street, apartment 3.
Legal address:
NPO CASCADE LLC
167000, Republic of Komi, Syktyvkar
40 Pervomaiskaya Street, Office 1.
TIN 6829069742,
OGRN 1106829006877,
KPP 110101001
General Manager Pyotr Valentinovich Rubeko
Mobile phone: +7.912.867.99.88
Laboratory, tel./fax (4752) 49-23-67
Web:cascadnpo.ru
Skype: sdmk981
CASCADE RESEARCH AND PRODUCTION
ASSOCIATION LLC