A Technological System for Using Waste Warm Water from Energy Facilities for Effective Agriculture

Agrawal K. K., Tejpal Y., Rohit M. (2019) Effect of soil moisture contents on thermal performance of earth-air-pipe heat exchanger for winter heating in arid climate: In situ measurement, Geothermics, 77, 12–23. https://doi.org/10.1016/j.geothermics.2018.08.004 Get rights and content.10.1016/j.geothermics.2018.08.004 Search in Google Scholar

Balghouthia M., Koolia S., Farhata A., Daghariw H. (2005) Experimental investigation of thermal and moisture behaviors of wet and dry soils with buried capillary heating system, Solar Energy, 79 (6), 669–681. https://doi.org/10.1016/j.solener.2005.06.011.10.1016/j.solener.2005.06.011 Search in Google Scholar

Dalampakis P., Gelegenis J., Ilias A., Ladas A. (2017) Technical and economic assessment of geothermal soil heating systems in row covered protected crops: A case study from Greece, Applied Energy, 203 (1), 201–218. https://doi.org/10.1016/j.apenergy.2017.06.029 Get rights and content.10.1016/j.apenergy.2017.06.029 Search in Google Scholar

Dudnik A., Kuzmych L., Trush O., Domkiv T., Leshchenko O., Vyshnivskyi V. (2020) Smart Home Technology Network Construction Method and Device Interaction Organization Concept, IEEE Second International Conference on System Analysis & Intelligent Computing (SAIC’2020), DOI: 10.1109/SAIC51296.2020.9239220.10.1109/SAIC51296.2020.9239220 Search in Google Scholar

Issakhov A. (2014) Mathematical modeling of thermal process to aquatic environment with different hydro meteorological conditions, Sci. World J., 632–635. Search in Google Scholar

Korobiichuk I., Drevetsky V., Kuzmych L., Kovela I. (2020) The method of multy-criteria parametric optimization, Advances in Intelligent Systems and Computing, 1140, 2020. Automation 2020: Towards Industry of the Future, 87–97. doi.org/10.1007/978-3-030-40971-5. – Available at: https://link.springer.com/chapter/10.1007/978-3-030-40971-5−9. Search in Google Scholar

Korobiichuk I., Kuzmych L., Kvasnikov V. (2019) The system of the assessment of a residual resource of complex technical structures, MECHATRONICS 2019: Recent Advances Towards Industry 4.0, 350–357. https://doi.org/10.1007/978-3-030-29993-4−43.10.1007/978-3-030-29993-4 Search in Google Scholar

Love R. V., Wüest A., Zappa M., Fink G., Bouffard D. (2018) Tributaries affect the thermal response of lakes to climate change, Hydrol. Earth Syst. Sci., 22, (1), 132–141. Search in Google Scholar

Madden N., Lewis A., Davis M. (2013) Thermal effluent from the power sector: an analysis of once-through cooling system impacts on surface water temperature, Environmental Research Letters, 8, 2–8.10.1088/1748-9326/8/3/035006 Search in Google Scholar

Prats J., Val R., Dolz J., Armengol J. (2012) Water temperature modeling in the Lower Ebro River (Spain): heat fluxes, equilibrium temperature, and magnitude of alteration caused by reservoirs and thermal effluent, Water Recourses, 48 (5), 230–245.10.1029/2011WR010379 Search in Google Scholar

Rakovec J., Hočevar A. (1988) Simulation of soil- and air-microclimate modifications using soil heating with warm water, Agricultural and Forest Meteorology,42 (1), 41–52. https://doi.org/10.1016/0168-1923(88)90065-2.10.1016/0168-1923(88)90065-2 Search in Google Scholar

Rokochynskiy A., Volk P., Frolenkova N., Prykhodko N., Gerasimov I., Pinchuk O. (2019a) Evaluation of climate changes and their accounting for developing the reclamation measures in Western Ukraine, Scientific Review Engineering and Environmental Sciences, 28 Issue 1(83), 3–13. DOI: 10.22630/PNIKS.2019.28.1.1. http://iks−pn.sggw.pl/PN83/A1/zeszyt83art1en.html.10.22630/PNIKS.2019.28.1.1 Search in Google Scholar

Rokochinskiy A., Jeznach J., Volk P., Turcheniuk V., Frolenkova N., Koptiuk R. (2019b) Reclamation projects development improvement technology considering optimization of drained lands water regulation based on BIM, Scientific Review Engineering and Environmental Sciences, 28 Issue 3 (85), 432–443. doi: 10.22630/PNIKS.2019.28.3.40. http://iks−pn.sggw.pl/PN85/A11/zeszyt85art11en.html.10.22630/PNIKS.2019.28.3.40 Search in Google Scholar

Vasiliev N. N., Remizov Yu.V. (2004) Energobiological complexes as a method of utilization of waste heat of large power facilities and the creation high-intensity waste-free production, Atomic science issues and technology, 1, 57–60. Search in Google Scholar

Vasiliev A. M. (2011) Development of greenhouse farms subject to the use of potential of power generating enterprises, Science Journal of Russian Scientific Researches of Institute of Land Reclamation Problems, 2, 1–7. Search in Google Scholar

Vostrikov V. P. (2015) Heat reclamation system for heating the soil with waste warm waters, International Scientific Institute “EDUCATIO”, 6 (13), 131–134. Search in Google Scholar

Vostrikov V. P., Pinchuk O. L., Gnatyuk V. N. (2014) Soil Water Regime in the Tunnel Shelters at Heating Water Filled Shells-Sleeves and Drip Irrigation, Universal Journal of Food and Nutrition Science – USA, 2 (1), 7–17 (http://www.hrpub.org/download/20140105/UJFNS2-11101752.pdf).10.13189/ujfns.2014.020102 Search in Google Scholar