The main idea of the invention is to use a long flying pipeline to deliver water to a forest fire. Another use could be to irrigate large areas in emergency situations. Our solution to transfer water with an airborne pipeline is several thousand times more efficient. A typical 16-inch plastic pipe gives a water flow of s 7281 m3 per hour or 2427 times more water on target than the helicopter. The general functionality of the invention is very simple. The water is elevated from the basin with the pumping station through the long pipeline. It finally ejects water from the pipeline endpoint to the forest fire. The crucial difference is that the pipeline flies above the hills hanging from hundreds of drones. The above pipe needs a special pump. The pump lies at the inner surface of the pipe, it is very small and there are more than one in every meter of the pipe. The airborne pipeline is under pre-alpha test today waiting for the final European Patent Office approval. However the coaxial pipe inner booster is a very innovative approach that is not limited to airborne pipeline use. Our ambitious are far to replace the traditional pump withits unique smoothly operation. Of course serious mathematical modelling is necessary before to proceed to the next pre alpha step (or test).
Published in | American Journal of Environmental and Resource Economics (Volume 2, Issue 2) |
DOI | 10.11648/j.ajere.20170202.11 |
Page(s) | 56-61 |
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), 2017. Published by Science Publishing Group |
Forest Fire, Drone Technology, Hydraulics Applications, Irrigation, Agriculture, Natural Resources, Environment, Environment and Growth, Environmental and Ecological Economics
[1] | Saidur, R., et al. "Applications of variable speed drive (VSD) in electrical motors energy savings." Renewable and Sustainable Energy Reviews 16.1 (2012): 543-550. |
[2] | Aarne Vesilind, J. Jeffrey Peirce and Ruth F. Weiner. 1994. Environmental Engineering. Butterworth Heinemann. 3rd ed. |
[3] | Stephens, Scott L., and Lawrence W. Ruth. "FEDERAL FOREST‐FIRE POLICY IN THE UNITED STATES." Ecological applications 15.2 (2005): 532-542. |
[4] | Bonazountas, Marc, et al. "A decision support system for managing forest fire casualties." Journal of Environmental Management 84.4 (2007): 412-418. |
[5] | Wybo, J-L. "FMIS: A decision support system for forest fire prevention and fighting." IEEE Transactions on Engineering Management 45.2 (1998): 127-131. |
[6] | Casbeer, David W., et al. "Forest fire monitoring with multiple small UAVs." Proceedings of the 2005, American Control Conference, 2005. IEEE, 2005. |
[7] | Ollero, Anibal, and L. Merino. "Unmanned aerial vehicles as tools for forest-fire fighting." Forest Ecology and Management 234.1 (2006): S263. |
[8] | Marks, Paul. "Hop in, I'm flying." New Scientist 224.2992 (2014): 19-20. |
[9] | Finn, Peter. "Rise of the drone: From Calif. garage to multibillion-dollar defense industry." Washington Post 23 (2011). |
[10] | Connector for coaxial tubes or cables. U.S. Patent No 3,498,647, 1970. |
[11] | Osborne, Keith J. "Flexible double-containment piping system for underground storage tanks." U.S. Patent No. 5,098,221. 24 Mar. 1992. |
[12] | Sweed, Walter. "This old plant still flies." American Water Works Association. Journal 91.10 (1999): 12. |
[13] | Zissopoulos, Dimitrios, and G. Topalidis. "Defence Electronics, Computers, Systems and Models implementation into Private Army Battalions Marketing, Contracting and Auditing." Conf. on SYSTEMS. Vol. 11. 2007. |
[14] | Zisopoulos Athanasios,” Digital saddle for semi-automatic control of service animals and partially reinstating the animal-drawn economy”, OBI patent no, 2016, 100223, EUROPEAN PATENT OFFICE. |
[15] | Zisopoulos Athanasios, «General purpose recording device to embed forensics accepted digital certificates to the internet distributed art, communication and politics multimedia products. General purpose recording device to generate digital secure real world forensic evidences», 2016, 100091, EUROPEAN PATENT OFFICE. |
[16] | Gerakis, George, and Athanasios Zisopoulos. "Mathematic and Algorithmic Failure Meet Misinterpretation and Inefficiency in Integrated Systems for FOREX, CFD, Taxis-Net and E-Banking." |
[17] | Zissopoulos Dimitrios, Gerakis George, Stefania Zisopoulou, The preferential status of a patent as regional development semi private investment; Crete preliminary case study, 18th Scientific Conference for regional development”, Irakleio, Crete, 8,9 May 2014. |
APA Style
Athanasios Zisopoulos, Dimitrios Razis. (2017). The Pipe-Pump Integration in the “Airborne Pipeline Docked to an Earth Reservoir to Deliver Water over Long Distance for Aerial Firefighting and Irrigation” System. American Journal of Environmental and Resource Economics, 2(2), 56-61. https://doi.org/10.11648/j.ajere.20170202.11
ACS Style
Athanasios Zisopoulos; Dimitrios Razis. The Pipe-Pump Integration in the “Airborne Pipeline Docked to an Earth Reservoir to Deliver Water over Long Distance for Aerial Firefighting and Irrigation” System. Am. J. Environ. Resour. Econ. 2017, 2(2), 56-61. doi: 10.11648/j.ajere.20170202.11
AMA Style
Athanasios Zisopoulos, Dimitrios Razis. The Pipe-Pump Integration in the “Airborne Pipeline Docked to an Earth Reservoir to Deliver Water over Long Distance for Aerial Firefighting and Irrigation” System. Am J Environ Resour Econ. 2017;2(2):56-61. doi: 10.11648/j.ajere.20170202.11
@article{10.11648/j.ajere.20170202.11, author = {Athanasios Zisopoulos and Dimitrios Razis}, title = {The Pipe-Pump Integration in the “Airborne Pipeline Docked to an Earth Reservoir to Deliver Water over Long Distance for Aerial Firefighting and Irrigation” System}, journal = {American Journal of Environmental and Resource Economics}, volume = {2}, number = {2}, pages = {56-61}, doi = {10.11648/j.ajere.20170202.11}, url = {https://doi.org/10.11648/j.ajere.20170202.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajere.20170202.11}, abstract = {The main idea of the invention is to use a long flying pipeline to deliver water to a forest fire. Another use could be to irrigate large areas in emergency situations. Our solution to transfer water with an airborne pipeline is several thousand times more efficient. A typical 16-inch plastic pipe gives a water flow of s 7281 m3 per hour or 2427 times more water on target than the helicopter. The general functionality of the invention is very simple. The water is elevated from the basin with the pumping station through the long pipeline. It finally ejects water from the pipeline endpoint to the forest fire. The crucial difference is that the pipeline flies above the hills hanging from hundreds of drones. The above pipe needs a special pump. The pump lies at the inner surface of the pipe, it is very small and there are more than one in every meter of the pipe. The airborne pipeline is under pre-alpha test today waiting for the final European Patent Office approval. However the coaxial pipe inner booster is a very innovative approach that is not limited to airborne pipeline use. Our ambitious are far to replace the traditional pump withits unique smoothly operation. Of course serious mathematical modelling is necessary before to proceed to the next pre alpha step (or test).}, year = {2017} }
TY - JOUR T1 - The Pipe-Pump Integration in the “Airborne Pipeline Docked to an Earth Reservoir to Deliver Water over Long Distance for Aerial Firefighting and Irrigation” System AU - Athanasios Zisopoulos AU - Dimitrios Razis Y1 - 2017/02/09 PY - 2017 N1 - https://doi.org/10.11648/j.ajere.20170202.11 DO - 10.11648/j.ajere.20170202.11 T2 - American Journal of Environmental and Resource Economics JF - American Journal of Environmental and Resource Economics JO - American Journal of Environmental and Resource Economics SP - 56 EP - 61 PB - Science Publishing Group SN - 2578-787X UR - https://doi.org/10.11648/j.ajere.20170202.11 AB - The main idea of the invention is to use a long flying pipeline to deliver water to a forest fire. Another use could be to irrigate large areas in emergency situations. Our solution to transfer water with an airborne pipeline is several thousand times more efficient. A typical 16-inch plastic pipe gives a water flow of s 7281 m3 per hour or 2427 times more water on target than the helicopter. The general functionality of the invention is very simple. The water is elevated from the basin with the pumping station through the long pipeline. It finally ejects water from the pipeline endpoint to the forest fire. The crucial difference is that the pipeline flies above the hills hanging from hundreds of drones. The above pipe needs a special pump. The pump lies at the inner surface of the pipe, it is very small and there are more than one in every meter of the pipe. The airborne pipeline is under pre-alpha test today waiting for the final European Patent Office approval. However the coaxial pipe inner booster is a very innovative approach that is not limited to airborne pipeline use. Our ambitious are far to replace the traditional pump withits unique smoothly operation. Of course serious mathematical modelling is necessary before to proceed to the next pre alpha step (or test). VL - 2 IS - 2 ER -