Portable Solar Heat Energy Storage System

Solar heat energy is abundant and free, but collecting and storing it is very inefficient... until now!

As you know SOLAR ENERGY TECHNOLOGY already exists and millions of people using that daily all around the World as a PHOTOVOLTAIC SOLAR ENERGY TECHNOLOGY.

Professor. Dr. G. G. / inventor of PORTABLE SOLAR HEAT ENERGY STORAGE SYSTEM only made some important changes in this existing solar technology for make that more efficient and convinient.

The MOST IMPORTANT CHANGES what Professor. Dr. G. G. made is that the following; he created a PORTABLE SOLAR HEAT ENERGY STORAGE TANK what is capable of storing solar heat energy for long periods of time, twelve (12) months or more.

During this time, only 5-10% of the heat is lost. This allows for the use of solar heat energy during long winter months where there is little or no sun. These solar heat energy storage tanks last to 60 years or more.

Because of the advanced portable solar heat energy storage systems high efficiency, it is possible to run large operations with a relatively small footprint and low cost.

Current methods of storing solar heat energy using photovoltaic panels and solar batteries provides approximately 15% efficiency in collecting the suns heat. Good systems may offer up to 25%.

Our portable solar heat energy storage system offers over 88% efficiency and can store temperatures up to 900°C compared to the 90°C of current PV storage systems.

Our sun-following computerized dish mirror provides reflection capabilities of 94% because this system has a newly developed receiver.

ABOUT THE PORTABLE SOLAR HEAT ENERGY STORAGE TANK

The portable solar heat energy storage tank heat temperature for private consumption (householders, hotels, schools, hospitals etc.) area is around 285 Celsius up to 290 Celsius.

But the system ably to operate (work) safely even on 150 Celsius. The industrial area needs 300 Celsius up to 500 Celsius or more 900 Celsius.

The material for the advanced portable storage vessel (advanced portable heat storage tank) is ordinary cheap steel which is creating safe defender strata when contact with the special phase changing material.

The stainless steel is NOT good for the advanced portable storage vessel because the phase changing material will attack that badly.

The most common and cheap steel is the best material here. The steel is around 1 cm thick which is covering the storage tank (vessel). The storage tank closes the phase changing material hermetically.

The USA and various European Universities tested the storage vessel (heat storage tank) hundreds of times and they confirmed that the storage vessel (heat storage tank) is 100 % safe. But the manufacturer (producer) must use the originally tested and recommended materials and NOT new materials to build these storage vessels (tanks).

The phase changing material is NON aggressive and NON toxic and NON corrosive material. This phase changing material like every domestic chemical or cleaning material (Ajax, CIF etc.) is not highly toxic or dangerous. If there any damage made by WAR or any other reason on the tank, the phase changing material will be dry (stabilize) immediately and close the hole or damaged area contact by air.

The specific heat capacity of solar energy products is around 1,785 and 1,822 kJ/dm3, or 427 and 436 kcal/dm3, which were particularly excellent values even on a global scale.

Please see below the attached informations about the portable solar heat energy storage systems.  

Further technical information will be available after we build a new and bigger portable solar heat energy storage tank prototype.

The phase changing material is worldwide available, but Professor. Dr. G. G. is ready to release his own European source address if you interested. The price (cost) of the phase changing material is very low if you buying in big quantity. That is around $0,50 USA cents per kilogram or maybe less than this. The phase changing material not requires any maintenance, because closed hermetically in the heat storage tank (vessel).

The Professor has more than ten project plans. These project plans are covering the full solar energy systems and not only a part of the solar energy systems.

The dishes mirrors material is not metal, not steel, but opus rosin (plastic) what you can purchase from European source and from other source as well.  

If we able to build a solar electric power plant project in the future, then we will safe the night time energy by mobile storage vessels (heat storage tanks) what we can send daytime to various (different) users: for example to agricultural area, hospitals, motels, industries, factories etc.

With this mobile storage vessel technology (system) we could save hundred millions of dollars every year or maybe more.

The project:

This project involves advanced high solar technology products within the solar energy sector, involving a large number of inventions, which will make a revolution within the global energy sector.

The inventor:

The inventor Professor. Dr. G. G. is an internationally recognized physicist professor from Europe, having more than 35 years of experience within advanced and high technology solar thermal projects.

The products:

The following described products are invented:-

3.1: Solar Electric Power Plant

The solar energy power plant products are bringing the solar energy business to a next level compared with existing PV technologies.

The solar electric power products do have a great number of benefits and have an efficiency of 88% (or more), compared with normal photovoltaic solar technology.

Our electrical power generating solar equipment (solar power plant) capacity is normally from less than 1MW-h up to 500 MW-h, but small power plants will be also available in the very near future to be used for factories, super markets, hotels, suitable for a small number of households etcetera.

All our solar energy systems are “sun-followers” and fully computerized, and all systems offer a quick return on investment in the equipment.

The operational cost (price) of our Electrical Power Plant run by solar energy is only 2.2 cents (USD) per kW-h against the conventional power plants price which is 2.8 cents (USD) per kW-h.

There is no any other project in the world, which is able to make- or offers these types of advanced products with such high efficiency.

3.2: Hydrogen Fuel Plant

The invention is capable of producing hydrogen fuel from water at a much lower cost using a solar energy and hydrogen fuel technology system.

The storage of hydrogen fuel can be done in different sizes of tanks or piped, and applications of cheap hydrogen fuel world wide are substantial!

3.3: Sea Water Desalinization Plant

In combination with solar energy production, we can desalinate seawater into 100% pure drinking water in the very near future.

The need of 100% pure drinking water world wide is substantial!

3.4: Portable (Mobile) Heat Energy Storage System

The Portable (Mobile) Heat Energy Storage Systems is a unique heat and electricity storage system. These mobile systems are capable of utilizing the waste heat of traditional power stations, and these mobile systems will provide low-cost heat and electricity to settlements located at a great distance from existing power plants, or without connection to a local network of electrical power supply wires.

With this portable (mobile) heat energy storage system, we can double (reduplicate) the requested electrical power production in the conventional energy fields (also what presently run by coal or crude oil, wind, hydro etcetera).

The portable (mobile) heat energy storage system can be used as a “gas bottle” in a subscription system for normal supply of heat and energy to consumers. Where the portable heat energy storage tanks can be transported by trucks, special container trucks, railroad cars or vessels, and changed into a new “bottle” when empty.

Our portable heat energy storage tank can also be installed in the underground and can capture the spilt (waste) evening and night energy, and turn back this captured waste energy (heat) to electricity in peak times, by sending the captured energy in our mobile energy storage system to all types of small and large consumers, or through the established network of electrical power supply wires. 

The captured summer time solar heat energy could be used in winter time because of the capability of heat storage of solar energy in the energy storage tank for up to 12 month or longer.

3.5: Solar Energy Utilizing and Heat Storing Equipment

The following 5 systems have been developed to accommodate different climates and applications, all incorporating the concepts of solar concentrators and latent heat based on phase change.

3.5.1: The Continental Climate Solar Heat Storage System meets the complete heating, hot water and (absorption-type) air conditioning needs.

3.5.2: The Mediterranean Climate Solar Heat Storage System comes in two sizes. The first type meets all the heating (heating, hot water, cooking and baking on a special stove) and cooling (absorption-type air condition, refrigerator and freezer) needs of a household.

The second type of Mediterranean system provides all of the above and is also capable of generating electricity.

3.5.3: The larger, Multi-dwelling Solar Heat Storage System is capable of meeting all the heating, cooling (absorption-type) and electricity needs of several families. The system capacity is sufficient to allow for surplus electricity to be sold during peak hours to other consumers.

3.5.4: The Industrial Solar Heat Energy Storage Systems can contribute significantly to the improved competitiveness of industry by supplying low-cost energy for heating (steam, hot water, heat treatment, heating), absorption type cooling, and electricity. Based on energy needs, this system is offering a quick return on investment.

3.5.5: Public Building Systems are able to supply low-cost heating, cooling, hot water, air conditioning and electricity to buildings such as sports arenas, exhibition halls, swimming pools etcetera.

We have an existing 15 y/o prototype and written references from European technological universities for above solar energy product’s, which will prove these solar energy products, the advanced portable heat energy storage systems and their capability, reliability- and practicability.

However we would like to build a new and bigger portable heat energy storage tank prototype, a NEW PORTABLE HEAT ENERGY STORAGE TANK later this year. Also, we would like to invite the inventor, Professor. Dr. G. G. to settle and lives in Australia. And that is why we need your great support and generous donations.

The global energy situation:

Use of coal is creating large amounts of pollutant, and sources of fossil fuel will be greatly reduced the coming 50 years. This gives great challenges for any government in order to develop and secure the future energy production and supplies.

Our advanced and high solar technology products, are capable of solving the large challenges every country and government have what regards the total energy situation and supply of electricity, heat, hydrogen fuel and clean drinking water in an outmost environmental friendly manner, at a substantial lower cost than any other existing technologies.

Due to the fact that we are using only renewable resources such as water and sun, our solar energy products will have a great effect on the reduction of the greenhouse emissions created by traditional power stations runned by fossile fuel and coal, including pollution from industries, cars, trucks etcetera using fossile fuels and coal.

We hope that the above basic information's are sufficient to introduce our highly advanced solar energy technology properly to the right people and companies to make a preliminary decision to help and support our goals and bring this project to life.

Expert opinion on the Portable Solar Heat Energy Storage System based on utilization of latent heat and phase change, constructed by Professor. Dr. G. G.

At the Chemical Technology Department of the European University of Technology several research programs have been going on for the last few decades focusing on solving the theoretical and practical problems associated with heat storage systems, especially latent heat storage systems.

Of all the presently known and applied heat storage methods and processes the latent heat utilizing phase change method provides the largest heat storage capacity, has the best thermic capabilities and is the most economical, while the heat removal (heat discharge) of solid state heat storage systems which store sensible heat takes place at decreasing temperatures, heat storage with latent heat is not based on temperature change, rather it is connected to constant temperature phase change of the absorbing medium.

A further advantage is that the latent heat storage tank is a system of constant pressure and mass.

The main features of such a system are the following.

The crystalline heat storing medium is heated in a closed chamber. While it slowly melts, it accumulates large amounts of heat. This heat, stored in the liquid phase substance, is discharged when the liquid heat storing medium is chilled to crystallize.

We can distinguish between three major types of heat storing media: pure substances, two component systems and three component systems. For heat storage it is best to choose a two component mixture, especially eutectic or multi-compound blends, in case of which the melting point can be reduced without significantly lower enthalpy of the phase transition. Binary eutectics are advantageous due to their relatively high latent heat of fusion and low price.

Professor Dr. G. G.’s project includes a system of latent heat storage based on phase change. Selection of appropriate heat storing substances was preceded by careful research and development.

This work was carried out by the Chemical Technology Department of the European University of Technology, the research team examined almost one thousand crystalline substances and eutectics.

Several criteria were applied for selection. The task was to select the heat storage substance with high latent heat of fusion, of reliable reversibility, one that is nonaggressive towards structural materials (a non-corrosive substance), does not show a tendency to supercool, and has an attractive price.

During the one-year research program a number of eutectics satisfying the above criteria were found. Measurement exercises warrant that the performance of the selected eutectics is outstanding.

Not only did Professor Dr. G. G. design and project the portable heat storage system, but he also joined it with another project of his, the solar energy collecting concentrators.

The joined device can store heat from solar energy rather efficiently and in an environmentally friendly manner.

A new and portable version of the heat storage device has also been developed. It is possible to transport the heat storage tanks to power plants or any other heat generating utilities and fill the tanks up with heat, and then the tanks can be transported to the actual place of heat utilization.

This method is advantageous for power plants with seasonal operation patterns and also at any location where waste heat is discharged.

After having completed the research, development and experiment programs, manufacturing plans were made, and Professor. Dr. G. G. had operational heat storage equipment built, which was first exhibited in Europe 15 years ago. The device is capable of heating and hot water production in a reliable fashion.

In short Professor. Dr. G. G’s unprecedented projects can be regarded as very innovative and original. It is very important that a prototype has been put to operation and the results of this operation are favorable.

A great advantage of the equipment is that fossil fuels can be saved with it, and thus it contributes to the protection of the environment.

We are hold in our hands the best, latest and most advanced portable solar heat energy storage technology.

We need your help and support to bring this project to life in 2017.