Sea Water Desalination Project

1. According to the recent statistics of the UN – which has been described in the declaration of Ban Ki Mun, that was prepared on the occassion of his redelegation – 1.2 billion people on the Earth (17.1 % of the total population) has no access to water, not to mention that safety drinking water is not provided for 2 billion people (28.5 % of the population of the Earth). The mentioned facts lead to several illnesses and health problems.2. Rio + 20 Konferencia would like to deal with the two most important question in priority: water and climatic changes, and would like to find solutions to both topics as they are the biggest challenges for mankind.3. In consideration of the above metioned two problems we are in dispose of several different facilities which could give us a solution in the cheapest and the most environmental friendly way, and also ensuring to be satisfactory and economically friendly in all ways.4. Mainly the mediterranian, sub-tropical and tropical areas of the Earth are in need of healthy and safety dringking water, where seas and oceans can be found everywhere in accessible ways. The bigger distance from the seas are superable. This can be considered as a completely solved issue, because water can be delivered to any distances and higher relief areas through pipelines. The electricity necessary for the pumping could be served by the special equipments designed for this purpose, which utilize solar energy.5. We have prepared, the business, the implementation, the manufacturing, and thereturn on investment plans. According to these calculations, due to the sea desalinator machines prepared by us - which work by solar energy – the word’s most excellent drinking water can be produced, especially by the solar plants that having the biggest size and output. The production cost of 1 m3 drinking water is 0.30 USD, which means that the total investment cost returns in 20 days if calculated for a 200 EUR investment under the cost of 0.1 USD/ liter.This can be considered the biggest opportunity not only at the moment, but even more for the future, and WHAT IS MORE, THIS IS THE BIGGEST HUMANITARIAN CHARITY FOR MANKIND.6. There is an additional aspect needs to be taken into consideration when talking about the introduction of sea desalination: the comparison of the pros and cons of the different methods.

a. The traditional thermik desalination is considered disused, since it necessitates the burning of disproportionately high amount of fuels, and the actuation necessitates the contribution of several people, because a high amount of carbon-dioxide and other harmful materials gets into the air during the process. Considering all these mentioned aspects, this method is very expensive and very disadvantageous because of the emissions of harmful materials.b. The method based on the reversible osmosis is similar to the „case of the veterinary horse”in the context that the base point of every illnesses (in this case every fault) can be found. The first step is the so called „cold process”, where the quality of the filters (permeators) define the quality of the water coming through the filters. Unfortunately we cannot say that the drinking water deriving from such method has a good taste, even if the quality of the filter is fine. As the second step, the remainig, harder salt-contained (sea water (15-18 % of salt-contant) is readmited to the sea where this high salt-contant united with the continuously arriving hard solution is getting harder in such a way that it sistematically leads to the complete desolation of each and every creatures of the sea in huge coverage of the sea, makes the sea a dead-sea. As the third step, these machinery consume lots of electricity, while letting extra emissions of harmful materials into the air. As the forth step, if this kind of water is used for irrigation, due to the higher salt-contant cummulate in the soil, it becomes unproductive after some years. For the fifth step, the filter has to be changed regularly because of their continuous fouling, therefore the production is under a break during this occasions. As a result, this process is the worst one ever, cannot be adviced even as an emergency option, because it is disproportionately expensive, causes huge, unreversible damages in the seas and the atmosphere, while the quality of the water is exceptionable.c. Our energy-efficient method for sea water desalination works by solar energy, is the cheapest equipment method for preparing an excellent quaity of dinking water, which does not cause any damages neither in the atmosphere nor in the sea. The reason for the second is the drying of the hard sea water - which is rich in salt-contant - under the sun. I would like to kindly ask you to take these above mentioned aspects into consideratin when making your decision.

Existing equipments.

1. Energy provision of flats and houses with solar energy utilization2. Energy providing equipments with solar energy utilization used under temperate zone conditions3. „Mediterranean” equipments utilizing solar energy4. Equipments providing house blocks with energy by utilizing solar energy5. Equipments providing factories and other industrial establishments with energy utilizing solar energy6. Sea water desalination equipments utilizing solar energy7. Solar power station8. Heat storing equipments for storing energy originating from solar energy9. Storing equipment for the storage of electric energy10. Drying, drying-roasting equipment operating with solar energy11. Evaporating, concentrating equipments operating with solar energy12. Reutilization equipment for harmful wastes utilizing solar energy13. Mirror-system built on geosynchronous path for dispersing clouds of tropical cyclons (hurricanes, typhoons), tornados and hails14. „Eden Garden desert city” project15. Utilization of the gravitation energy of water falls in power stations16. Protection of airplanes against terror attacks17. Project for the energy provision and life sustainance on a Moon base 18. Hydrogen driver19. Supertank

Planned projects:

1. New-type wind power station2. Utilization of the wave.energy of seas as a power ststion3. Power station utilization of the current energy of rivers4. Body cooling or heating equipment utilizing wind or solar energy5. Equipment for removing snake poison6. Electronic notes7. Rock demolition in highly populated city areas8. Geometric representation of a 3D image9. New-type avio-technological solution

Kind regards, Dr. Gábor Göde

project maneger, project owner

Production costs of the complete sea-water desalination equipment functioning with solar energy of 1003 and 200 m3 daily capacity

Additional costs of water sold as drinking and other water

For equipments witha daily capacity of 100 m3

For equipments witha daily capacity of 200 m3Local assembly costs

Mixing tank for preparing drinking waterBottling, automatic filling equipmentCosts for creating an own transport capacityBuilding out protection against a storm

EURO 50.000EURO 12.000EURO 20.000EURO 50.000EURO 80.000

EURO 75.000EURO 12.000EURO 40.000EURO 70.000

EURO 160.000

Additional costs, altogether EURO 212.000 EURO 357.000

Other daily costs in case of operating own equipments, wages, energy, tax, etc.

EURO 4.000 EURO 8.000

Production costs, altogether EURO 397.910 EURO 686.820

Total investment cost and operation cost

EURO 401.910 EURO 694.820

Rounded sum EURO 402.000 EURO 695.000

The price for which the equipment is marketable EURO 482.000 EURO 815.000

Extra Profit EURO 80.000 EURO 120.000

Name of the part unit For daily capacity of 100 m3 (No of pieces)

Total price of a complete

part unit

For daily capacity of 100 m3

(No of pieces)

Total price of the complete

part unit

Concrete foundation 1 EURO 2000 1 EURO 4.000

Concentrator of 20m diameter 9 EURO 42.390 18 EURO 84.780

Strengthening structure 9 EURO 56.520 18 EURO 113.040

Hydraulic supporting-moving structure 45 EURO 135. 000 90 EURO 270.000

Evaporator body 4 EURO 20.000 4 EURO 20.000

Electric current producing equipment 1 EURO 40.000 1 EURO 40.000

Energy storing equipment 1 EURO 10.000 2 EURO 20.000

Sea-water collecting tank 1 EURO 8.000 1 EURO 8.000

Condensation tank 1 EURO 9.000 1 EURO 9.000

Collecting tank for the distilled water 1 EURO 10.000 2 EURO 20.000

Salt collecting concrete reservoir 1 EURO 8.000 2 EURO 16.000

Automatic computer control 1 EURO 7.000 1 EURO 7.000

Electromotors pumps, valves, instruments EURO 20.000 EURO 30.000

Profit EURO 20 000 EURO 30.000

Reserves EURO 10.000 EURO 15.000

Production cost, altogether EURO 397.910 EURO 686.820

Production and sale plan for the sea-water desalination equipments operating with solar energy and having 100 m3 and 200 m3 daily capacity for 4 production years containing 5 % and 4,4 % of profit in case of a 200 million Euro credit (investment)

In the first production year For equipment of 100

m3 daily capacity

For equipment of

200m3 daily capacity

Profit altogether

No. of equipments produced 400 300

Profit for 1 equipment Euro 80.000 EURO 120.000

Profit due after the full production sold in the firstyear

Euro 32.000.000 EURO 36.000.000 EURO 68.000.000

In the second production year For equipment of 100

m3 daily capacity

For equipment of

200m3 daily capacity

Profit altogether

No. of equipments produced 600 450

Profit for 1 equipment EURO 80.000 EURO 120.000

Profit due after the full production sold in thesecond year

EURO 48.000.000 EURO 54.000.000 EURO 102.000.000

In the third production year For equipment of 100

m3 daily capacity

For equipment of

200m3 daily capacity

Profit altogether

No. of equipments produced 800 600

Profit for 1 equipment EURO 80.000 EURO 120.000

Profit due after the full production sold in thethird year

EURO 64.000.000 EURO 72.000.000 EURO 136.000.000

In the fourth production year For equipment of 100

m3 daily capacityFor equipment of 200 m3

daily capacity

Profit altogether

No. of equipments produced 1200 800

Profit for 1 equipment EURO 80.000 EURO 120.000

Profit due after the full production sold in thefourth year

EURO 96.000.000 EURO 96.000.000 EURO 192.000.000

Profit altogether after all the equipments produced in the 4 production years Euro 498.000.000.

The return of the investment in case of functioning of the equipments in frame of own water plants from the income after the water sold can be expected as follows:

The good quality drinking water sold in 1 liter bottles for 1 EURO/liter it means for 400 equipments of 100 m3 capacity 400x100 = 40 000 m3 water, which makes 40 000 000 liter of water sold, and this brings 40 million Euro income. In case of the 300 pieces of equipments with 200 m3

capacity, the production is 300x200 = 60 000 m3 , i.e. 60 000 000 liter of drinking water which makes an income of 60 million EUROs. Thus, the full income from the drinking water is 100 million EUROs daily. Since the total amount of the credit is 200 million EUROs + the above costs emerging, the return time for the full sum is less than 2 and a half days, at calculating with a price of 1 EUROs/liter. At calculating with a price of 0.50 EUROs/liter, the return time is 5 days (with a price of 0.30 EUROs, the return time of the investment makes 9 days ). If we take the price of the drinking water as 0.10 EURO (which is in a strict contradiction with today’s prices), the return time increases only to 20 days. It is not accidental that today the water is considered as an even more important strategic tool than oil, the importance of water is supported by UN statistics according to which one third of mankind does not get enough drinking water.

Budapest, 11 október 2012. Sincerely yours:

Dr.Gábor Göde Patent owner and project manager