UNESCO Desire – Net project Sustainable Development Pietro La Mendola

1. UNESCO Desire – Net project SustainableDevelopment Pietro La Mendola pietro.lamendola@casaccia.enea.it UNESCO Rome, 2007 - 19 February

2. The heat conversion in electrical energy has had a greater expansion than it was technically justifiable. Power stations have been built more and more powerful in the same place, because of: better efficiency for the scale factor CENTRALIZED OR DIFFUSE CONVERSION ?

3. difficulty to find new locations being favourable for the construction, especially for nuclear power stations lower expenses for the staff devoted to management On other hand, the constructions of single or few number systems have become too much expensive. CENTRALIZED OR DIFFUSE CONVERSION ?

4. The hydroelectric plants, where energy conversion does not occur since the natural resource is already mechanical energy, are built in a position obliged by the hydro geologic situation. CENTRALIZED OR DIFFUSE CONVERSION ?

5. Often the big systems have deeply modified the territory. They force people to leave the flooded regions and they are not free from risks. The electric power coming from these plants in centralized way usually needs be distributed in far localities. CENTRALIZED OR DIFFUSE CONVERSION ?

6. The convenience criteria about the transformations of solar or wind energy are opposite. The solar radiation has a power density of equivalent magnitude as one demanded for final use and it is very discontinuous. The wind energy has a greater power density, but it is characterized by extreme irregularity. CENTRALIZED OR DIFFUSE CONVERSION ?

7. Any is the applied technology both these natural resources will become convenient if: The primary conversion occurs close to the place of the final use Accumulation of energy is obtained through small and distributed devices The final uses do not needs energy in continuous way Integration with energy from other sources is achievable. CENTRALIZED OR DIFFUSE CONVERSION ?

8. The solar and wind low power systems distributed in the territory also offer the advantage of being cheaper than those that are centralized, because they can be manufactured in series and in unified way. Moreover, they can be installed and managed by staff with modest technical qualification. In the current condition of technology, hardly it will become convenient converting the solar and wind energy in centralized way and distributing energies in the territory that are naturally already available in distributed way. CENTRALIZED OR DIFFUSE CONVERSION ?

9. Many applications of the solar energy do not demand the conversion in mechanical energy otherwise realizing favourable and economic cycles. The solar energy has been for millennia used for the salt separation from the sea water through evaporation, because the valuable material was the salt and the technical knowledge allowed only this process. FROM SUN DRINKABLE WATER, CLIMATISATION AND ONCE-THROUGH COOLING

10. Nowadays, in many places the precious material is the freshwater and efficient processes can be developed in order to obtain it from the sea. through photovoltaic cells and osmotic membranes through multiple stage evaporation process at low pressure FROM SUN DRINKABLE WATER, CLIMATISATION AND ONCE-THROUGH COOLING

11. The freshwater or feebly salt water for agricultural and alimentary use can easily be accumulated and distributed. It re-enters in the energetic resources of the type of entropy reduction. FROM SUN DRINKABLE WATER, CLIMATISATION AND ONCE-THROUGH COOLING

12. Other human needs, which can be satisfied by the solar energy in disseminated modality without the phase of the conversion in electricity, are related to the air conditioning. FROM SUN CLIMATISATION AND ONCE-THROUGH COOLING

13. The necessity to heat or to cool air in the buildings, thermally insulated from the outside, in order to obtain comfortable conditions for people or in order to conserve fresh goods, can be satisfied resorting to plants that take advantage of the solar heat, or directly or through refrigeration cycles. Systems of this type need for the construction and the management staff with basic technical knowledge. FROM SUN CLIMATISATION AND ONCE-THROUGH COOLING

14. FROM SUN CLIMATISATION AND ONCE-THROUGH COOLING

15. FROM SUN CLIMATISATION AND ONCE-THROUGH COOLING

16. It is obligatory, even if we use the sources of energy defined renewable, operating with great precaution and respect for the nature. Taking hydraulic, solar and wind energy away can modify also deeply the atmosphere in which beings exist and they reproduce themselves. ATMOSPHERE MODIFICATIONS DUE TO TAKING ENERGY AWAY

17. Beyond the accumulating hydroelectric systems, which have been pointed out, all kinds of hydraulic systems steal energy from water course reducing the natural ability to modify, through the erosion and the carrying materials, the shape of the river bed and the depuration of the water with the turbulence and the oxygenation. HYDRAULIC ENERGY

18. The species living in the water course would be established in modified environment regarding: oxygen presence temperature organic sediments and bacterial flora other species of the alimentary chain The equilibriums among species are often unstable and they can change strongly. HYDRAULIC ENERGY

19. HYDRAULIC ENERGY

20. Equally it can happen when energy is captured excessively from the atmospheric currents at a low altitude. The air kinetic energy participates in a great number of dynamic and thermodynamic phenomena. ENERGY FROM THE WIND

21. Its decrease can cause remarkable changes regarding: Composition Organic and inorganic pollens and other carried materials Temperature pressure and humidity ENERGY FROM THE WIND

22. Its decrease can cause remarkable changes regarding: Ability to dilution of injurious elements and transport at distance of nourishing substances Perhaps there is not any risk to change the climatology of the Earth, but locally the living rainfall and equilibriums among species can be modified, above all among bugs which are often in relation with the vegetation, and the alimentary chains are based on them. ENERGY FROM THE WIND

23. The absorption and radiation factors of the land surface can be modified through installation of large extensions of solar panels in order to obtain either low temperatures or high temperatures through concentration systems or direct conversion panels. These installations have effects on the atmosphere which are comparable to what it would happen destroying forests or asphalting great extensions of land. They change the thermal upward currents and all the local meteorology and the all living beings suffer the situation. SOLAR PANELS

26. POWDERS FROM NATURAL SOURCES

27. POWDERS FROM NATURAL SOURCES

28. The actions on the natural energetic system are renewable and sustainable only if they are accurately planned and if the concentration limits are not exceeded, which are different for each type of territory. As consequence of the natural limits impending over every modality of taking energy away we can always rely on: saving of energy reasonable use of the type of energy temperature at final use as much as possible near to the primary one of the used resource SAVING AND REASONABLE USE

29. Saving and reasonable use are certainly the most renewable and sustainable sources of energy we can imagine. These sources have to be integrated with all the judiciousness and the knowledge that is available as far as the watchful saving of the entropy and constant separation of all those materials reacting spontaneously or blending themselves or containing latent energy, that can still be useful if correctly managed. SAVING AND REASONABLE USE

30. Do not mix sewer waters and waters containing detergents Recycle glasses, metals, cellulose, feeds etc Recover the heat of lukewarm waters before releasing in the atmosphere Recover the heat discharged from the thermodynamic cycles (co-generation) Construct buildings with low energy loss Power lines with low dispersion Transports optimized for the impact on the atmosphere and the conversion of energy SAVING AND REASONABLE USE

31. The low temperature heat comes from thermodynamic cycles and industrial waste, but also from lukewarm water from civil use, whose residual heat can be captured through opportune means. Other resources of heat at low temperature are of natural origin due to secondary volcanic activity. SAVING AND REASONABLE USE

32. The recovery of the heat, destined in great part to the civil uses, demands the construction of complex and expensive thermal nets. The countries that have this kind of nets are typically those that have very cold climates and short time of investment recovery. With raise of the fuel price and the costs of the pollution the thermal nets will be able to be diffused also in different climatic areas. SAVING AND REASONABLE USE

33. The thermal energy at temperature =< 100 °C has a relevant economic value and it can be recycled with great advantage for the safeguard of the environment because the following aspects are avoided: the alteration of the thermal condition of the atmosphere where the unusable heat is discharged the combustion of valuable materials and the emission of corresponding smoke the improper use of energy sources adapted to reach higher temperatures THERMAL NETS AND GEOTERMIA, INVESTMENTS AND SAVINGS

34. Another source of not renewable energy, free from atmospheric emissions energy, that it is proposed but it must be estimated with great precaution, is the hydroelectric exploitation of the sea water through the flooding of areas that are under the sea level. Often in the past these areas were invaded from the sea from which they were separated by the movements of earth. ENERGY FROM THE SEA, PLANS OF FLOODING OF THE LOW LEVEL AREAS

35. Their flooding, beyond the exploitation of the water energy in the filling phase, can carry some mitigations of the climate and the possibility of sustainable activities, such as: fish breeding drinkable water from the sea fishing inland navigation ENERGY FROM THE SEA, PLANS OF FLOODING OF THE LOW LEVEL AREAS

36. For the immense extension of these areas, these plans must be examined with precaution, because the alteration of the environment connected to them can large and hardly expectable. ENERGY FROM THE SEA, PLANS OF FLOODING OF THE LOW LEVEL AREAS