AERO LLC SAINT-PETERSBURG RUSSIA ENERGY SAVING SYSTEM NRG AERO - - PowerPoint PPT Presentation

AERO LLC

SAINT-PETERSBURG RUSSIA ENERGY SAVING SYSTEM NRG

AERO – Alternative Energy RO

• We research high frequency water split;
• We research electro-magnetic motors;
• We research and produce high efficient water

heaters;

• We produce and promote energy saving system

NRG.

• Established in 2008

We work in the following directions:

Energy saving system NRG

Now we tell you about

• ur own commercial

technology – NRG!

Energy saving – very important problem of modern World!

• From one side – we reduce payments for

electricity of consumer.

• From other side – we help save

environment and stop problem of “Global Warming”.

Existing Energy Saving Equipment

• Energy saving lamps;
• Equipment for soft start of electric motors;
• Devices for reactive power compensation;
• Devices for reduce voltage in electric grid.

Energy saving system NRG

UNIVERSAL TECHNOLOGY

Energy Saving System NRG

Energy Saving System NRG

• Saves up to 17% of electricity power;
• Reduces reactive power;
• Reduces harmful harmonics;
• Reduces harmful electromagnetic waves;
• Makes life time of the electrical equipment

longer;

• Drops down temperature of conductors in

electric grid.

Description of energy saving system NRG

• Includes 4 (four) separate units with connecting electric

cable;

• Each unit has special chemical compound inside;
• Can be stored in warehouse very long (unlimited);
• Works only after connection to alternating current (AC);
• Reduces losses of electric power in the electric grid;
• Saves from 5 to 17 % of active electric power;
• Warranty – 5 years, life time – 20 years;
• Designed and manufacturing by the company AERO

LLC and protected by our own KNOW-HOW technology.

INSIDE STRUCTURAL CONFIGURATION

• 1. Multiple-core high quality cupper cable
• 2. Sealing part
• 3. Cover of the body with the hole
• 4. Epoxide compound
• 5. Cylindrical body
• 6. Central electrode –

pure copper tube

• 7. Main chemical compound –

the source of free electrons

• 8. Back cover of the body

PRINCIPLE OF OPERATION

• The system is based on four insulated units which are

connected to each phase and a neutral conductor of a consumer's network after a step-down transformer;

• Unit is filled with a chemical compound;
• While units are in stock and are not connected to an

alternating current system, no processes occur in the chemical compound;

• After connection of each block to an AC phase by means
• f a copper cable, substances that form the compound

begin to react;

• Alternating magnetic field through a copper cable affects

the internal structure of each unit and initiates physical and chemical processes between the substances of the compound;

PRINCIPLE OF OPERATION

• As a result of a chemical reaction, new substances are

formed and a large quantity

• f

free electrons is discharged;

• Since each unit represents an insulated reservoir, the

concentration of free electrons in each unit gradually increases and some point becomes larger than the concentration of free electrons in conductors

• f

a consumer's network;

• Free electrons begin to move from the area of higher

concentration (NRG unit) to the area

• f

lower concentration (the consumer's network), ;

• Increase

concentration

• f

free electrons in the customer's network;

• Increase electrical conductivity of conductors ;
• Reduces electrical resistance of all conductors in the

consumer's network;

• Works on the alternating current (AC) only.

TRANSFER OF POWER

TRANSFER - YES TRASNSFER - NOT BALL IS APSENT

Reduction of Harmful Harmonics.

The particularity of this energy-efficient system is the fact that electrons come from the unit to a consumer's electric power network by pulses at a frequency which coincides with a frequency of the fundamental harmonic in the network (in this case, 50 or 60 Hz), which leads to resonance and superposition of the fundamental harmonic in relation to harmful harmonics in the network (100, 150, 200, 250 Hz, etc.). Thus, harmful harmonics are suppressed and their amplitude is significantly reduced.

Reduction of Reactive Power.

Voltage plays primary role in an electric power network; in AC networks voltage changes its sign 50 times per second (at a frequency of 50 Hz): change of direction is smooth, sinusoidal; Voltage in a network causes current, which also varies and changes the sign sinusoidally, but in actual networks sine wave of the current falls behind the voltage sine wave by some value; it is in this period that reactive power is generated. The reason is that electrons have a certain persistence and mobility.

Reduction of Reactive Power.

Persistence is the ability of an electron to resist the applied voltage. Mobility is the ability of an electron to change direction following change in

• voltage. Due to heterogeneity of actual

conductors, electrons in them have different persistence and mobility; but the higher the concentration of free electrons in a conductor, the more electrons are highly mobile, reducing to a minimum the lag (delay) of alternating current from voltage, thus reducing the reactive power of a particular network, all other conditions being equal.

Universality of the System

The system automatically adjusts to the frequency of AC voltage in a network and requires no additional adjustment and maintenance during operation. Based on the experience of the use of energy-efficient systems at different sites, we can conclude that this system is a universal tool that may be used by any AC consumer. However the best results in terms of power saving are achieved at sites that use long and branched electric power networks, as well as where the base load is alternating current electric motors.

APPEARANCE OF NRG 500 kW

PHOTO OF MOUNTING

POINTS OF CONNECTION OF NRG 500 KW TO THE PHASES TO NEUTRAL PHASE

SCHEME OF NRG CONNECTION TO THREE PHASE ELECTRICAL GRID

UNIT #1 UNIT #2

METER

UNIT #3 UNIT #4 3 2 1 TRANSFORMER

MODELS

TYPE, kW DIAMETER, mm HEIGHT, mm WEIGHT OF THE SET, kg 10 70 90 3,2 20 70 140 5,6 30 70 170 8 50 100 130 10 75 `100 150 12 100 100 180 15 200 150 140 18 300 150 170 24 400 150 190 28 500 160 210 32 750 200 370 46 1000 200 440 58

HOW TO CHOOSE THE MODEL?

• The model should be chosen on the base
• f peak power;
• There is need to make monitoring of

electric power consumption

• n

the transformer during two weeks before NRG installation;

• To identify peak power value;
• For example: if peak power is 490 kW, so

500 kW model should be chosen.

SAVINGS EFFECT WITH THE DIFFERENT TYPE OF LOAD

• ELECTRIC MOTORS – 12-17%;
• LUMINOUS LIGHTING – 6-8%;
• OFFICE EQUIPMENT – 10-15%;
• WELDING – 10-14%;
• COMPUTER CENTERS – 10-15%.

WORKS PEKAR, ST-PETERSBURG, SAVING - 14%.

LOAD – THREE COMPRESSORS.

145 150 155 160 165 170 175 180 185 190 195 200 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 kW minutes

Before NRG With NRG

• St. Petersburg, Water pump station.

50000 100000 150000 200000 250000 300000 1 52 103 154 205 256 307 358 409 460 511 562 613 664 715 766 817 868 919 970 1021 10721123

150 823 163 470 158 882 166 664 136 048 136 887 144 745 138 276 20000 40000 60000 80000 100000 120000 140000 160000 180000 1 2 3 4

TATNEFT Almetievsk, Tatarstan, Russia, 200 kW

140 145 150 155 160 165 170 175 1 23 45 67 89 111 133 155 177 199 221 243 265 287 309 331 353 375 397 419 441 463 485 507 529 551 573 595 617 kW

Activ power during 13 days, kW

Before NRG After NRG Economy 6,96%

REFERENCE LIST

• 1. FGUP “NIISK” (research institute), Saint-Petersburg, Russia,

power 400 kW, saving 11%;

• 2. “Castorama Rus” LLC (part of KINGFISHER, GB, construction

supermarket), Saint-Petersburg, Russia, 500 kW, saving 11.2%;

• 3. JSC TATNEFT’ (oil refinery plant), Almetievsk, Tatarstan, Russia,

200+200 kW, saving 11%;

• 4. JSC “SAN INBEV“ (brewery), Saransk, Mordovia, Russia, 500

kW, saving 6,5%;

• 5. “Truck Center“ (truck service station), Nizhnekamsk, Tatarstan,

Russia, 100 kW, saving 10%;

• 6. One of the buildings of Russian President Administration (office

building),Moscow, Russia, 750 kW, saving 8%;

• 7. Vodocanal (water supplying and drainage state company),

Ekaterinburg, Russia, 80 kW, saving 10%.