Suppressing Evaporation from Surface Water Reservoirs: A Review

S. Deepika; M. Osman; Manoranjan Kumar; H. Sandeep

doi:10.52151/jae2020573.1720

Authors

S. Deepika ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana. Author
M. Osman ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana Author
Manoranjan Kumar ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana Author
H. Sandeep ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana Author

DOI:

https://doi.org/10.52151/jae2020573.1720

Keywords:

Evaporation control techniques, mechanical shields, wind break, floating solar panels

Abstract

The availability of water for agriculture is declining due to competing demands from other sectors, mainly industry and human need. Water conservation and harvesting is the only solution to overcome the vagaries of monsoon in the Indian sub-continent. The precious blue water needs to be converted into green water without loosing through seepage and evaporation. Seepage is beneficial as it recharges groundwater. Evaporation although improves micro-climate, needs to be controlled. The review highlights various physical, chemical, biological or the combination of methods undertaken to control the evaporation in India. Monolayer like cetyl and stearyl alcohol alone, or in combination of both, reported to control evaporation up to 30 % and 57 %, respectively. Biological measures using agricultural waste are cost-effective and reported to reduce evaporation up to 60 % with palm fronds. Mechanical measures like floating type solar panels, though expensive, are useful with multiple benefits. Mechanical shields like suspended shade cloth, thermocol, styrofoam and floating wax studied by various researchers reportedly control evaporation ranging between 25 % and 70 per cent. Bubble plume technique indicated varied reduction in evaporation with depth of water storage structure from 15- 25 per cent. From the extensive review, it could be concluded that floating/fixed type solar panels, depending on the type of water body, are the most effective and may be subsidised to increase it' adoption.

Author Biographies

S. Deepika, ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana.

Research Fellow (Soil and Water Conservation Engineering)
M. Osman, ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana

Principal Scientist (Agronomy)
Manoranjan Kumar, ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana

Principal Scientist
H. Sandeep, ICAR- Central Research Institute for Dryland Agriculture, Santoshnagar, Hyderabad, Telangana

Research Fellow (Water Resources Engineering)

References

Alam S; AlShaikh A A. 2013. Use of palm fronds as shaded cover for evaporation reduction to improve water storage efficiency. J. King Saud Univ.– Eng. Sci., 25, 55-58.

Al-Juruf R S; Ahmed F A; Alam I A. 1988. Development of heat insulating material using date palm leaves. J. Therm. Insul., 11, 158-159.

Al Hassoun S A; Al Shaikh A A; Al Rehaili A M; Misbahuddin M. 2011. Effectiveness of using palm fronds in reducing water evaporation. Can. J. Civil Eng., 38(10), 1170-1174.

Althoff D; Rodrigues L N; David da Silva D. 2019. Evaluating evaporation methods for estimating small reservoir water surface evaporation in the Brabilian Savannah. Water, 11(9), 1-17.

Alvarez V M; Baille A; Martinez J M M; Gonzalez- Real M M. 2006. Efficiency of shading materials in reducing evaporation from free water surfaces. Agric. Water Manage., 84, 229-239.

Aminzadeh M; Lehmann P; Dani Or. 2018. Evaporation suppression and energy balance of water reservoirs covered with self-assembling floating elements. Hydrol. Earth Syst. Sci., 22, 4015-4032.

Archer R J; La Mer V K. 1955. The rate of evaporation of water through fatty acid monolayers. J. Physic. Chem., 59(3), 200-208.

Arora M; Goel N K; Singh P. 2005. Evaluation of temperature trends over India. Hydrol. Sci. J., 50(1), 37-41.

Assouline S; Narkis K; Or D. 2010. Evaporation from partially covered water surfaces. Water Resour. Res., 46(10), 1-12, W10539.

Assouline S; Narkis K; Or D. 2011. Evaporation suppression from water reservoirs: Efficiency considerations of partial covers. Water Resour. Res., 47(7), 1-8, W07506.

Bardsley E; Vetrova V. 2019. Estimating evaporation for low wind speeds at an eddy correlation site: Potential for windbreak evaluation. J. Hydrol. (NZ), 58(1), 57-63.

Barnes G T. 2008. The potential for monolayers to reduce the evaporation of water from large water storages, Agric. Water Manage., 95, 339-353.

Bean B R; Florey Q L. 1968. A field study of the effectiveness of fatty alcohol mixtures as evaporation reducing monomolecular films. J. Water Resour. Res., 4, 206-208.

Benke K; Tomkins B. 2018. Future food-production systems: vertical farming and controlledenvironment agriculture, sustainability. Sci. Pract. Policy, 13(1), 13-26.

Boon A G; Downing A L. 1957. Observations on the use of cetyl alcohol for conservation of water. Inst. Water Eng. J., 11, 443-448.

Bradley E F. 1968. A micro meteorological study of velocity profiles and surface drag in the region modified by a change in surface roughness. Q. J. R. Meteorol. Soc., 94, 361-379.

Brandle J R; Hodges L; Zhou X H. 2004. Windbreaks in North American agricultural systems. Agro. For. Syst., 61, 65-78.

Brink G N; Symes T W; Hancock N H. 2011. Development of a smart monolayer application system for reducing evaporation from farm dams: Introductory paper. Aust. J. Multidiscip. Eng., 8(2), 121-130.

Brown J. 1988. The potential for reducing open water evaporation losses: A review. In: Proc. Hydrology and Water Resources Symposium, 1-3 February, Canberra, Australia, 108-115.

Burston I A; Akbarzadeh A. 1995. Fresh water storage – Evaporation research. Report to the Cotton Research and Development Corporation, Sainty and Associates, NSW, Sainty and Associates, Australia, pp: 68.

Burston I A. 2002. Conservation of water from open storages by minimizing evaporation. Unpublished Ph.D. Thesis, RMIT University, Melbourne, Australia.

Chang S; McClanahan M; Kabler P. 1962. Effect of bacterial decomposition of hexadecanol and octadecanol in monolayer films on the suppression of evaporation loss of water. In: La Mer VK (Ed.), Retardation of Evaporation by Monolayers. Transport Processes, Academic Press, New York, 119-131.

Chaudhari N; Chaudhari N D. 2015. Use of thermocol sheet as floating cover to reduce evaporation loss in farm pond. In: Hydro-2015 International Conference on Hydraulics, 17-19 December, Water Resources and River Engineering, IIT, Roorkee, India, 1-9.

Cleugh H A; Prinsley R; Bird R; Brooks S J; Carberry P; Crawford M; Jackson T; Meinke H; Mylius S; Nuberg I; Sudmeyer R; Wright A. 2002. The Australian national windbreaks program: Overview and summary of results. Aust. J. Exp. Agri., 42, 649-664.

Condie S A; Webster I T. 1995. Evaporation mitigation from on-farm water storages. CSIRO Centre for Environmental Mechanics, CSIRO, Canberra, Australia, Technical Report No. 90, pp: 68.

Condie S A; Webster I T. 1997. The influence of wind stress, temperature and humidity gradients on evaporation from reservoirs. Water Resour. Res., 33, 2813-2822.

Cooley K R; Myers L E. 1973. Evaporation reduction with reflective covers. J. Irrig. Drain. Div., 99(3), 353- 363.

Coop P A. 2011. Detection of evaporation reducing monolayers on open water surfaces. Unpublished Ph.D. Thesis, University of New England, Australia.

Cowtan K; Way R G. 2014. Coverage bias in the had CRUT4 temperature series and its impact on recent temperature trends, Q. J. R. Meteorol. Soc., 140, 1935-1944.

Craig I; Aravinthan V; Baillie C P; Beswick A; Barnes G; Bradbury R; Connell L; Cooper P; Fellows C; Fitzmaurice L; Foley J P; Hancock N; Lamb D; Morrison P; Mossad R; Misra R K; Pittaway P; Prime E; Rees S; Schmidt E; Solomon D; Symes T; Turnbull D. 2007. Evaporation, seepage and water quality management in storage dams: A review of research methods. Environ. Health, 7(3), 84-97.

Craig I; Green A; Scobie M; Schmidt E. 2005. Controlling Evaporation Loss from Water Storages. National Centre for Engineering in Agriculture, University of Southern Queensland, Australia, Publication No. 1000580/1, pp: 207.

Critchley W; Siegert K; Champman C; M Finkel. 1991. A Manual for the Design and Construction of Water Harvesting Schemes for Plant Production. Food and Agriculture Organization, Rome, Italy, Pub. No. AGL/MISC/17/91, pp: 148.

Crow F R. 1973. Increasing Water Supplies by Suppression of Reservoir Evaporation. Research Project Final Technical Completion Report Agreement No.: 14-31-0001-3036., Oklahoma Water Resources Research Institute, Oklahoma State University, Stillwater, Oklahoma, United States, pp: 37.

CWC. 2006. Evaporation Control in Reservoirs. Report, Central Water Commission (CWC), Government of India, New Delhi, India, pp: 96.

Daigo K; Phaovattana V. 1999. Evaporation and percolation control in small farm ponds in Thailand. The Japan Agric. Res. Q., 33(1), 47-56.

Dalton P; Raine S; Broadfoot K. 2001. Best Management practices for maximising whole farm irrigation efficiency in the Australian cotton industry. Final Report for CRDC Project No. NEC2C, National Centre for Engineering in Agriculture, USQ, Toowoomba, Queensland, Australia, Publication No. 179707/2, pp: 104.

Das A; Singh R K; Ramkrushna G I; Layek J; Tripathi A K; Ngachan S V; Choudhury B U; Patel D P; Rajkhowa D J; Chakroborty D; Ghosh P K. 2017. Roof water harvesting in hills- Innovations for farm diversification and livelihood improvement. Current Sci., 113(2), 1-5.

deBruin H A R. 1978. A simple model for shallow lake evaporation. J. Appl. Meterol., 17, 1132-1134.

Dhirajlal P A. 2017. Study on effectiveness of floating material for controlling evaporation from small water bodies. Unpublished M. Tech. Thesis, Maharana Pratap University of Agriculture & Technology (MPUAT), Udaipur, Rajasthan, India.

Drummond C J; Elliott P; Furlong D N; Barnes G T. 1992. Water permeation through two component monolayers of polymerized surfactants and octadecanol. J. Colloid Interface Sci., 151(1), 189-94.

Frenkiel J. 1965. Physical and chemical principles and review of experiments. United Nations Educational, Scientific and Cultural Organization (UNESCO), France, pp:79.

Gallego B; Alvarez V; Pittaway P; Symes T; Hancock N. 2010. The combined use of shade-cloth covers and monolayers to prevent evaporation in irrigation reservoirs. In: International Conference on Agricultural Engineering (AgEng 2010), 06-08 Sept., Clermont-Ferrand, France, pp: 9. .

Gallego-Elvira B; Baille A; Martin-Gorriz B; Maestre-Valero J F; Martinez-Alvarez V. 2011. Energy balance and evaporation with loss of an irrigation reservoir equipped a suspended cover in a semi-arid climate (south-eastern Spain). Hydrol. Process., 25, 1694-1703.

Ganguly J K; Kaul R N. 1969. Wind Erosion Control. ICAR, New Delhi. Tech. Bull. (Agric.) 20, 1-53.

Gokbulak F; Ozhan S. 2006. Water loss through evaporation from water surfaces of lakes and reservoirs in Turkey. E-Water, Official Publication of the European Water Association (EWA), pp: 6.

Gugliotti M; Baptista M S; Politi M J. 2005. Reduction of evaporation of natural water samples by monomolecular films. J. Braz. Chem. Soc., 16(6A), 1186-1190.

Hamblin P F; Verburg P; Roebber P; Bootsma H A; Hecky R E. 2002. Observations, evaporation and preliminary modelling of over-lake meteorology on large African lakes. Adv. in Global Change Res., Springer, 12, 121-125.

Hancock N H; Pittaway P A; Symes T W. 2011. Assessment of the performance of evaporation suppressant films: Analysis and limitations of simple trialling methods. Aust. J. Multidiscip. Eng., 8(2), 157-167.

Harbeck G E. 1962. A practical field technique for measuring reservoir evaporation utilizing mass-transfer theory. Geological Survey Professional Paper 272-E, United States Government Printing Office, Washington, USA, 101-105.

Hassan M. 2013. Evaporation estimation for Lake Nasser based on remote sensing technology. Ain Shams Eng. J., 4, 593-604.

Heisler G M; Dewalle D R. 1988. Effects of windbreak structure on wind flow. Agric. Ecosyst. Environ., 22–23, 41-69.

Helfer F; Zhang H; Lemckert C J. 2009. Evaporation reduction by windbreaks: Overview, Modelling and Efficiency. Urban Water Security Research Alliance Technical Report No. 16, pp: 18.

Helfer F; Zhang H; Lemckert C. 2011. Modelling of lake mixing induced by air-bubble plumes and the effects on evaporation. J.Hydrol., 406, 182-198.

Helfer F; Zhang H; Lemckert C. 2012. Influence of bubble plumes on evaporation from non-stratified waters. J.Hydrol., 438-439, 84-96.

Helfer F; Andutta P F; Louzada A J; Zhang H; Lemckert C. 2018. Artificial destratification for reducing reservoir water evaporation: Is it effective? Lakes and Reservoirs, Wiley Online library, 23(4), 1-18.

Hipsey M R; Sivapalan M. 2003. Parameterizing the effect of a wind shelter on evaporation from small water bodies. Water Resour. Res., 39(12), 1-9.

Hughes T C; Richardson E A; Franckiewicz J A. 1975. Water Salvage Potentials in Utah. Volume II: In: Volume II: Evaporation Suppression by Reservoir Destratification, Report by Utah Water Research Laboratory College of Engineering, Utah State University, United States, pp: 387.

Hunter K; Finn N; Barnes S. 2007. The benefits of shade cloth covers for potable water storages. In: Proc. 70th Annual Water Industry Engineers and Operators’ Conference, Bendigo Exhibition Centre, Australia, 4 to 6 September, 86-92. http://www.csiro.au/resources/Shadeclothcovers.html.

Jensen M E. 2010. Estimating evaporation from water surfaces. CSU/ARS Evapotranspiration Workshop, Fort Collins, CO, 1-27.

Kahalekar U J; Kumawat H S. 2013. Evaporation suppression from water surfaces using chemical films. Int. J. Civil Eng. Technol., 4(3), 185-196.

Koberg G E; Ford M E. 1965. Elimination of thermal stratification in reservoirs and resulting benefits. Geol. Surv. Water Supply Paper, 1809-M, pp: 28.

Kumar A; Singh R. 2010. Plastic lining for water storage structures. Directorate of Water Management, Chandersekharpur, Bhubaneswar, India, Technical Bulletin No. 50, pp: 34.

Kumar R; Farooq Z; Jhajharia D; Singh V P. 2018. Trends in temperature for the Himalayan environment of Leh (Jammu and Kashmir), India. In: Climate Change Impacts, Water Science and Technology Library 82, Springer Nature Singapore Pvt. Ltd., pp: 13.

Larry P; Karen W; John B; Victor H B. 2007. Design information for evaporation ponds in Wyoming. Wyoming Water Research Centre, University of Wyoming, Colourado, USA, Report No. WWRC-85- 21. http://library.wrds.uwyo.edu/wrp/85-21/85-21.html

Lehmann P; Aminzadeh M; Or D. 2019. Evaporation suppression from water bodies using floating covers: Laboratory studies of cover type, wind, and radiation effects. Water Resour. Res., 55(6), 4839-4853.

Li F; Zhao Y. 2018. Estimation of open water evaporation using land-based meteorological data. Theor. Appl.Climatol., 134, 397-409.

Lomas J; Schlesinger E. 1971. The influence of a windbreak on evaporation. Agric. Meteorol., 8, 107-115.

Mady B; Lehmann P; Or D. 2018. Evaporation suppression from water reservoirs using floating covers – preliminary results from field experiments. Geophys. Res. Abstr., 20, EGU2018-11778.

Maestre-Valero J F; Alvarez V M; Elvira B G; Pittaway P. 2011. Effects of suspended shade cloth cover on water quality of an agricultural reservoir for irrigation. Agric. Water Manage., 100, 70-75.

Magin G B; Randall L E. 1962. Review of literature on evaporation suppression. Geol. Survey Professional Paper 272- C,United States Government Printing Office, Washington, USA, 53-69.

Manges H; Crow F R. 1965. Evaporation suppression by Chemical and mechanical treatments. Proceedings of the Oklahoma Academy of Science, 46, 251-254.

Marco Rosa-Clot; Tina G M; Nizetic S. 2017. Floating photovoltaic plants and wastewater basins: An Australian project floating photovoltaic plants and waste. Energy Procedia, 134, 664-674.

Martinez-Alvarez V; Baille A; Molina Martínez J M; González-Real M M. 2006. Effect of black polyethylene shade covers on the evaporation rate of agricultural reservoirs. Spanish J. Agric. Res., 4(4), 280-288.

Martinez-Alvarez V; Maestre-Valero J F; Martín- Gorriz B; Gallego-Elvira; B. 2010. Experimental assessment of shade-cloth covers on agricultural reservoirs for irrigation in south-eastern Spain. Spanish J. Agric. Res., 8(S2), S122-S133.

McArthur I K H; Durham K. 1957. Fatty Alcohols for Water Conservation. In: Proc. International Congress on Surface Activity, London, Preprint 1, AL, 208-215.

McJannet D; Cook F; Burn S. 2008. Evaporation reduction by manipulation of surface area to volume ratios: Overview, analysis and effectiveness. CSIRO: Water for a Healthy Country National Research Flagship, Urban Water Security Research Alliance, The Urban Water Security Research Alliance ,Quuensland, Technical Report No. 8, pp: 21.

McJannet D; Cook F; Knight J; Burn S. 2008a. Evaporation reduction by monolayers: Overview, Modelling and Effectiveness. Urban Water Security Research Alliance, The Urban Water Security Research Alliance, Queensland, Technical Report 6, pp: 32.

McJannet D L; Webster I T; Cook F J. 2012. An area-dependent wind function for estimating open water evaporation using land-based meteorological data. Environ. Model. Software, 31, 76-83.

Messing I; Afors M; Radkvist K; Lewan E. 1998. Influence of shelterbelt type on potential evaporation in an arid environment. Arid Soil Res. Rehabil., 12, 123-138.

Mohit A; Sarvesh D. 2019. Floating solar photovoltaic (FSPV): A third pillar to solar PV sector. TERI Discussion Paper: Output of the ETC India Project, The Energy and Resources Institute (TERI), New Delhi, India, pp: 64.

Monfared S A H; Rezapour M; Zhian T. 2019. Using windbreakers for decreasing lake and reservoir evaporation: A case study from Iran. Polish J. Environ. Stud., 28(4), 2289-2298.

Mozafari A; Mansouri B; Chini S F. 2019. Effect of wind flow and solar radiation on functionality of water evaporation suppression monolayers. Water Resour. Manage., 33, 3513-3522.

NAS. 1974. More Water for Arid Lands, Promising Technologies and Research Opportunities. National Academy Sciences, Washington, USA, pp: 153.

Onen I I. 2019. Reducing evaporation losses in surface water using local available materials in semi-arid region (A case study of Maiduguri metropolis). Int. J. Eng. Sci. Comput., 9(10), 23872-23880.

Panjabi K; Rudra R; Goel P. 2016. Evaporation retardation by monomolecular layers: An experimental study at the Aji Reservoir (India). Open J. Civil Eng., 6, 346-357.

Radhakrishnan K; Sivaraman I; Jena S K; Sarkar S; Adhikari S. 2017. A climate trend analysis of temperature and rainfall in India. Climate Change Environ. Sustainability, 5(2), 146-153.

Reddy K S; Kumar M; Rao K V; Maruthi V; Reddy B M K; Umesh B; Babu R G; Reddy K S; Vijayalakshmi; Venkateswarlu B. 2012. Farm Ponds: A Climate Resilient Technology for Rainfed Agriculture: Planning, Design and Construction. Central Research Institute for Dryland Agriculture, Santoshnagar, Saidabad, Hyderabad- 500059, Andhra Pradesh, India, pp: 60.

Reiser C O. 1969. A system for controlling water evaporation. Ind. Eng. Chem. Res., 8, 63-69.

Reiter A; Weidinger R. 2016. Trends in Temperature and Precipitation. In: Mauser W; Prasch M (Eds.), Regional Assessment of Global Change Impacts, Springer, Chapter 13, 117-123.

Rezazadeh A; Akbarzadeh P; Aminzadeh M. 2020. Modelling and experimental investigation of evaporation suppression using floating covers in the presence of surface flows. Amirkabir J. Mech. Eng., 53(1), 1-3.

Saggai S; Boutoutaou D; Elkheir Bachi O. 2018. Effects of monolayers made from different emulsions on surface water evaporation in a typical Algerian oasis. Lebanese Sci. J., 19(3), 445-454.

Segal L; Burstein L. 2010. Retardation of water evaporation by a protective float. Water Resour. Manage., 24,129-137.

Shah R; Ghosh P K; Mishra V K; Bujarbaruah K M. 2007. Low-cost micro-rainwater harvesting technology (Jalkund) for new livelihood of rural hill farmers. Current Sci., 92(9), 1258-1265.

Shaw E M. 1988. Hydrology in Practice. Van Nostrand Reinhold International, London, United Kingdom, pp: 535.

Simon K; Shanbhag R; Slocum A H. 2014. Reducing evaporative water losses from irrigation ponds through the reuse of polyethylene terephthalate bottles. J. Irrig. Drain. Eng., 142(2), 1-12.

Singh K S; Athokpam H. 2018. Jalkund: Low cost rainwater harvesting structure for sustainable livelihood of the Chandonpokpi village, Chandel district, Manipur, India. Int. J. Pure Appl. Biosci., 6(5), 1326-1334.

Skidmore E L; Hagen L J. 1970. Evaporation in sheltered areas as influenced by windbreak porosity. Agric. Meteorol., 7, 363-374.

Sovocool K; Morgan M; Drinkwine M; Sims D; Toussaint G. 2014. Testing an innovative evaporative suppressant for reducing losses from lakes. J. Am. Water Works Assoc., 106, 41-50.

Taboada M E; Caceres L; Graber T A; Galleguillos H R; Cabeza L F; Rojas R. 2017. Solar water heating system and photovoltaic floating cover to reduce evaporation: Experimental results and modeling. Renewable Energy, 105, 601-615.

Takahashi S; Suzuki S; Watanabe F; Goto A; Kubo A. 2012. The prevention methods of leak and for consecutive water reservoir. Desert Res. Japan Soc. Desert, 22(1), 287-290.

Van Dijk M; Van Vuuren S J. 2009. Destratification induced by bubble plumes as a means to reduce evaporation from open impoundments. Water SA, 35(2),158-167.

Wang H; Takle A; Shen J. 2001. Shelterbelts and windbreaks: mathematical modelling and computer simulations of turbulent flows. Annu. Rev. Fluid Mech., 33, 549-586.

Yan W; Bingwen W; Qingzhu J; Wei Z. 2009. Study on retardation of water evaporation by single and mixed monolayers at air/water interface. In: Proc. International Conference on Environmental Science and Information Application Technology, Wuhan, 179-182.

Yao X; Zhang H; Lemckert C; Brook A; Schouten P. 2010. Evaporation reduction by suspended and floating covers: Overview, Modelling and Efficiency. Urban Water Security Research Alliance, The Urban Water Security Research Alliance, Queensland, Technical Report No. 28, pp: 16.

Youssef Y W; Khodzinskaya A. 2019. A review of evaporation reduction methods from water surfaces. In: E3S Web of Conferences, 97, 05044. https://doi.org/10.1051/e3sconf/20199705044

Zhao G; Gao H. 2019. Estimating reservoir evaporation losses for the United States: Fusing remote sensing and modeling approaches. Remote Sens. Environ., 226, 109-124.