In many international meetings, energy saving programs have been suggested against the man made global warming effects, produced by the consumptions of the fossil derived energies. The FDE (Fossil Derived Energies) consumptions are due to the world's consumers whose number grows at a mean rate of 0.062 billion units /year: this growing number asks a greater number of goods to be consumed. The saving energy programs fail because the consumptions of goods demand provokes a growth of the production that is of the FDE burned. The MMGW (Man Made Global Warming) continues to grow and a catastrophic geostorm is in charge. In addition the FDE reserves continue to be eroded by the consumptions. A substitutive energetic economy, no IRG (Infrared reflecting Gases) producer, is the proposal to be discussed. To built this energetic economy takes time and it could be delayed when the atmosphere memory effect is considered. The substitutive energetic economy could have the following properties: prompt to match the MMGW, able to produce the equivalent of an intense saving energy program without reducing the consumptions, a competitive price of the energy offered to the consumers, a low investment cost at the year 2018. 11.3% of the world’s population consumes 30% of FDE with a per capita FDE consumed of 5.1 TEP (Ton of Equivalent Petroleum) /year. The remaining 88.7% consumes the 70% of FDE/year. The MMGW is, then produced as a global effect. A comparative analysis of the hypothetical scenarios which can be considered has been made. The less delayed against MMGW effects of long duration and economically sustainable resulted hard solar wind energy producer system, when the produced energy is consumable on demand. Either the electrolytic hydrogen gas production or the hydrostorage have been successfully tested to transform the stochastic into on demand consumable energy. Going on with the analysis of the HSW (Hard Solar Wind) stored energy supply, an equivalent energy saving of 27.7% (2017-2117) without diminishing the consumptions of goods and a mean low price of the equivalent petroleum barrel substituted, 42 USD/barrel have been obtained.
Published in | American Journal of Environmental Protection (Volume 7, Issue 5) |
DOI | 10.11648/j.ajep.20180705.11 |
Page(s) | 63-69 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2018. Published by Science Publishing Group |
Fossil Derived Energies, Man Made Global Warming, Infrared Reflecting Gases, Normal Cubic Meter, Hard Solar Wind, Low Cost Strategy, Ton of Equivalent Petroleum
[1] | Flohn H., 1981, Life in a warmer earth – Possible climatic consequences of man made global warming, IIASA e.r. |
[2] | Mac Donald A., 1981, Energy in a finite world, IIASA e.r. |
[3] | Nardelli E., 1980, I combustibili fossili, carbone, petrolio, gas naturale – Universale ETAS Editor. |
[4] | Weingart J. M., 1981, The helios strategy – an erethical view of the potential role of the solar energy in the future of a small planet, IIASA e.r. |
[5] | Bruni G., 1957, Chimica generale ed inorganica – Libreria Editrice Politecnica Cesare Tamburini Milano (aggiornamento, Giorgio Renato Levi e Mario A. Mollier). |
[6] | Visentin R., 1986, The role of hydrogen in the economy of renewable energetic technologies – VI World Hydrogen Energy Conference Vol. 1 20-24 July 1986, Vienna, Austria. |
[7] | Visentin R., 1978, Solar energy storage – Analysis of the weather conditions in the Mediterraean area for long term storage of solar energy – 4-8 Sept 1978 Miramare, Trieste - International Center of Theoretical Physics P. O. Box 586 Trieste, Italy. |
[8] | Bellecci C., Conti M., Visentin A., Visentin R., 1979, The energy cost-benefit ratio of parabolic trough with reference to electric power production from solar radiation. CIRAES (Centro Interdipartimentale Ricerca Applicazioni Energia Solare) Calabria University CS Italy - Proceedings of 18th International COMPLES Conference Milano 23-27 Sept 1979 Ed. Sviluppo Cassa di Risparmio di Calabria e Lucania. |
[9] | Visentin R., 1988, Culture and development strategies for the exploitation of the results of publicy funded research – CEE - Utilization of the results of public research and development. Luxemburg 1988 Official Publications Of. EC. ISDN 928258203-5 Catalogue number CD-NA 12243 EN-C printed in Belgium. |
[10] | Visentin R., 1981, Consiglio Nazionale delle Ricerche Italy. Finalized energy programme 1975-1981 – Subproject Solar Energy - Responsible R. Visentin - 500 researchers from 40 industrial firms, 18 universities, 12 CNR centers. |
[11] | Barra O., Conti M., Santamato E., Visentin R., 1976, Fisica-Problemi e complementi, Meccanica del punto e dei sistemi di punti, Meccanica dei fluidi, Onde elastiche, Termometria e Calorimetria, Termodinamica, sfruttamento Energia solare. Bulzoni Editore srl, Via Liburni 14 Roma Italy p. 580. |
[12] | Visentin R., 1971, Linee di trasmissione in regime sinusoidale e impulsivo. Bulzoni Editore srl, Via Liburni 14 Roma Italy p. 230. |
[13] | Visentin R., 1974, Corso di elettronica. Vol. 1 p. 676, Vol. 2 p. 338. Sansoni Editore Firenze, Italy. |
[14] | Visentin R., 1990, Ambiente risorsa economica della civiltà del 2000. Unesco Club di Verona, Verona, Italy. |
[15] | Visentin R., 1979, Caro vecchio dio sole. Mensile EURO nuova serie n. 8 (August 1979). Ed. S. e. p. e. Piazza della Libertà 10, Roma, Italy. |
[16] | Visentin R., 1986, Clima e ambiente risorse economiche della civiltà del 2000. Società Editrice Universo, Via G. B. Morgagni, Roma, Italy. |
[17] | Visentin R., 1992, PFT-CNR contratto num. 850019-393. Studio di fattibilità volto a definire la cornice tecnologica e tecnoeconomica di un sistema a trazione elettrica alimentato da energia solare diretta e indiretta. |
APA Style
Roberto Visentin. (2018). The Man Made Global Warming - Energetic Scenarios. American Journal of Environmental Protection, 7(5), 63-69. https://doi.org/10.11648/j.ajep.20180705.11
ACS Style
Roberto Visentin. The Man Made Global Warming - Energetic Scenarios. Am. J. Environ. Prot. 2018, 7(5), 63-69. doi: 10.11648/j.ajep.20180705.11
AMA Style
Roberto Visentin. The Man Made Global Warming - Energetic Scenarios. Am J Environ Prot. 2018;7(5):63-69. doi: 10.11648/j.ajep.20180705.11
@article{10.11648/j.ajep.20180705.11, author = {Roberto Visentin}, title = {The Man Made Global Warming - Energetic Scenarios}, journal = {American Journal of Environmental Protection}, volume = {7}, number = {5}, pages = {63-69}, doi = {10.11648/j.ajep.20180705.11}, url = {https://doi.org/10.11648/j.ajep.20180705.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajep.20180705.11}, abstract = {In many international meetings, energy saving programs have been suggested against the man made global warming effects, produced by the consumptions of the fossil derived energies. The FDE (Fossil Derived Energies) consumptions are due to the world's consumers whose number grows at a mean rate of 0.062 billion units /year: this growing number asks a greater number of goods to be consumed. The saving energy programs fail because the consumptions of goods demand provokes a growth of the production that is of the FDE burned. The MMGW (Man Made Global Warming) continues to grow and a catastrophic geostorm is in charge. In addition the FDE reserves continue to be eroded by the consumptions. A substitutive energetic economy, no IRG (Infrared reflecting Gases) producer, is the proposal to be discussed. To built this energetic economy takes time and it could be delayed when the atmosphere memory effect is considered. The substitutive energetic economy could have the following properties: prompt to match the MMGW, able to produce the equivalent of an intense saving energy program without reducing the consumptions, a competitive price of the energy offered to the consumers, a low investment cost at the year 2018. 11.3% of the world’s population consumes 30% of FDE with a per capita FDE consumed of 5.1 TEP (Ton of Equivalent Petroleum) /year. The remaining 88.7% consumes the 70% of FDE/year. The MMGW is, then produced as a global effect. A comparative analysis of the hypothetical scenarios which can be considered has been made. The less delayed against MMGW effects of long duration and economically sustainable resulted hard solar wind energy producer system, when the produced energy is consumable on demand. Either the electrolytic hydrogen gas production or the hydrostorage have been successfully tested to transform the stochastic into on demand consumable energy. Going on with the analysis of the HSW (Hard Solar Wind) stored energy supply, an equivalent energy saving of 27.7% (2017-2117) without diminishing the consumptions of goods and a mean low price of the equivalent petroleum barrel substituted, 42 USD/barrel have been obtained.}, year = {2018} }
TY - JOUR T1 - The Man Made Global Warming - Energetic Scenarios AU - Roberto Visentin Y1 - 2018/11/19 PY - 2018 N1 - https://doi.org/10.11648/j.ajep.20180705.11 DO - 10.11648/j.ajep.20180705.11 T2 - American Journal of Environmental Protection JF - American Journal of Environmental Protection JO - American Journal of Environmental Protection SP - 63 EP - 69 PB - Science Publishing Group SN - 2328-5699 UR - https://doi.org/10.11648/j.ajep.20180705.11 AB - In many international meetings, energy saving programs have been suggested against the man made global warming effects, produced by the consumptions of the fossil derived energies. The FDE (Fossil Derived Energies) consumptions are due to the world's consumers whose number grows at a mean rate of 0.062 billion units /year: this growing number asks a greater number of goods to be consumed. The saving energy programs fail because the consumptions of goods demand provokes a growth of the production that is of the FDE burned. The MMGW (Man Made Global Warming) continues to grow and a catastrophic geostorm is in charge. In addition the FDE reserves continue to be eroded by the consumptions. A substitutive energetic economy, no IRG (Infrared reflecting Gases) producer, is the proposal to be discussed. To built this energetic economy takes time and it could be delayed when the atmosphere memory effect is considered. The substitutive energetic economy could have the following properties: prompt to match the MMGW, able to produce the equivalent of an intense saving energy program without reducing the consumptions, a competitive price of the energy offered to the consumers, a low investment cost at the year 2018. 11.3% of the world’s population consumes 30% of FDE with a per capita FDE consumed of 5.1 TEP (Ton of Equivalent Petroleum) /year. The remaining 88.7% consumes the 70% of FDE/year. The MMGW is, then produced as a global effect. A comparative analysis of the hypothetical scenarios which can be considered has been made. The less delayed against MMGW effects of long duration and economically sustainable resulted hard solar wind energy producer system, when the produced energy is consumable on demand. Either the electrolytic hydrogen gas production or the hydrostorage have been successfully tested to transform the stochastic into on demand consumable energy. Going on with the analysis of the HSW (Hard Solar Wind) stored energy supply, an equivalent energy saving of 27.7% (2017-2117) without diminishing the consumptions of goods and a mean low price of the equivalent petroleum barrel substituted, 42 USD/barrel have been obtained. VL - 7 IS - 5 ER -