Assessment of an artificial recharge system through numerical simulations

2021 ◽  
Author(s):  
Paulo Herrera ◽  
Yerko Olivares
Keyword(s):  
Numerical Simulations ◽  
Management Strategy ◽  
Unsaturated Flow ◽  
Artificial Recharge ◽  
Water Infiltration ◽  
Storage Reservoirs ◽  
Single Well ◽  
Increasing Demand ◽  
Annual Distribution ◽  
Term Storage

<p>Artificial recharge is the set of techniques used to increase or facilitate the flow of water to aquifers. It has been a management strategy for centuries to optimize the use of water in regions where the seasonal or inter-annual distribution of surface water produces periods or exceedance and shortage. Water infiltration into aquifers is enhanced such that aquifers serve as short to medium term storage reservoirs. Water is recovered when needed.  Recently, increasing demand of groundwater and the occurrence of more severe and longer droughts in different regions around the world have produced a renewed interest in the application of this management strategy in many countries, particularly in arid and semi-arid regions.</p><p>Infiltration wells are a common method to apply artificial recharge, which allows infiltrating water directly into saturated aquifers or to the unsaturated zone. We performed local-scale numerical simulations of unsaturated flow to model the operation of a single well infiltration system. Based on the results of the simulations, we evaluate its performance considering different conceptualizations of the materials present in the vadose zone. We conclude that the performance of similar systems can be significantly different depending on the distribution of subsurface materials and their properties. Hence, the conceptualization and modeling of such systems require some care about how the inherent heterogeneity of aquifers is included in models.  Last, we provide some recommendations for the design and assessment of similar artificial recharge systems. </p>

scholarly journals Numerical Study of Macropore Impact on Ponded Infiltration in Clay Soils

2013 ◽  
Vol 1 (No. 1) ◽  
pp. 16-22
Author(s):  
Kodešova Radka ◽  
Šimůnek Josef Kozak and Jiři
Keyword(s):  
Numerical Simulations ◽  
Preferential Flow ◽  
Water Movement ◽  
Numerical Study ◽  
Water Infiltration ◽  
Clay Soils ◽  
Saturated Water ◽  
Water Recharge ◽  
Considerable Impact ◽  
Hydrus 1D

The single-porosity and dual-permeability models in HYDRUS-1D (Šimůnek et al. 1998, 2003) were used to simulate variably-saturated water movement in clay soils with and without macropores. Numerical simulations of water flow for several scenarios of probable macropore compositions show a considerable impact of preferential flow on water infiltration in such soils. Preferential flow must be considered to predict water recharge in clay soils.

Quantifying snowfall from orographic cloud seeding

2020 ◽  
Author(s):  
Katja Friedrich ◽  
Kyoko Ikeda ◽  
Sarah Tessendorf ◽  
Jeffrey French ◽  
Robert Rauber ◽  
...  
Keyword(s):  
Water Management ◽  
Silver Iodide ◽  
Management Strategy ◽  
Radar Reflectivity ◽  
Cloud Seeding ◽  
Straight Line ◽  
Orographic Clouds ◽  
Increasing Demand ◽  
Orographic Cloud ◽  
Water Management Strategy

<p>Cloud seeding has been used as one water management strategy to overcome the increasing demand for water despite decades of inconclusive results on the efficacy of cloud seeding. In this study snowfall accumulation from glaciogenic cloud seeding is quantified based on snow gauge and radar observations from three days in January 2017, when orographic clouds in the absent of natural precipitation were seeded with silver iodide (AgI) in the Payette basin of Idaho during the Seeded and Natural Orographic Wintertime Clouds: The Idaho Experiment (SNOWIE). On each day, a seeding aircraft equipped with AgI flares flew back and forth on a straight-line flight track producing a zig-zag pattern representing two to eight lines of clouds visible through enhancements in radar reflectivity. As these seeding lines started to form precipitation, they passed over several snow gauges and through the radar observational domain. For the three cases presented here, precipitation gauges measured increases between 0.05-0.3 mm as precipitation generated by cloud seeding pass over the instruments. A variety of relationships between radar reflectivity factor and liquid equivalent snowfall rate were used to quantify snowfall within the radar observation domain. For the three cases, snowfall occurred within the radar observational domain between 25 -160 min producing a total amount of water generated by cloud seeding ranging from 123,220 to 339,540 m3 using the best-match Ze-S relationship. Uncertainties in radar reflectivity estimated snowfall are provided by considering not only the best-match Ze-S relationship but also an ensemble of Ze-S relationships based on the range of coefficients published from previous studies and then examining the percentile of snowfall estimates based on all of the Ze-S relationships within the ensemble. Considering the interquartile range and 5<sup>th</sup>/95<sup>th</sup> percentiles, uncertainties in total amount of water generated by cloud seeding can range between 20-45% compared to the best-math estimates. These results provide new insights towards understanding how cloud seeding impacts precipitation and its distribution across a region.</p>

NUMERICAL SIMULATIONS OF LONG TERM UNSATURATED FLOW AND ACID MINE DRAINAGE AT WASTE ROCK PILES

2006 ◽  
Vol 2006 (2) ◽  
pp. 582-597 ◽  
Author(s):  
Omar Fala ◽  
John Molson ◽  
Michel Aubertin ◽  
Bruno Bussière ◽  
Robert P. Chapuis
Keyword(s):  
Acid Mine Drainage ◽  
Numerical Simulations ◽  
Unsaturated Flow ◽  
Mine Drainage ◽  
Waste Rock ◽  
Acid Mine ◽  
Waste Rock Piles

scholarly journals PRELIMINARY RESULTS OF GROUNDWATER RECHARGE EXPERIMENTS IN LARISA PREFECTURE

2007 ◽  
Vol 40 (2) ◽  
pp. 560
Author(s):  
G. Soulios ◽  
K. Voudouris ◽  
D. Kalfountzos ◽  
T. Kaklis ◽  
M. Sotiriadis ◽  
...  
Keyword(s):  
Water Resources ◽  
Groundwater Recharge ◽  
Management Strategy ◽  
Field Experiments ◽  
Artificial Recharge ◽  
Integrated Water Resources Management ◽  
Acceptable Solution ◽  
Resources Management ◽  
Aquifer System ◽  
Pilot Tests

Thessaly is the most important agricultural region in Greece and their economic development is influenced by the availability of water resources. During the last decades the overexploitation has lowered the groundwater level. The paper presents the results of artificial recharge in the aquifer system of Larisa prefecture through injection borehole and trench. The experiments took place during the period March - April 2006. The field experiments provided useful guidance on the planning of pilot tests, data monitoring and analysis, which can also be applied to other regions with similar hydrogeological conditions. Finally, this work confirms that groundwater recharge using the wintertime torrential flows is an environmentally acceptable solution, as part of an integrated water resources management strategy.

scholarly journals Knowledge management and the 2030 agenda for sustainable development in the United Nations context

2020 ◽  
pp. 077
Author(s):  
Mario Arturo Ricardo
Keyword(s):  
Sustainable Development ◽  
Knowledge Management ◽  
United Nations ◽  
Management Strategy ◽  
Knowledge Management Strategy ◽  
2030 Agenda ◽  
Analytical Perspective ◽  
The United Nations ◽  
Increasing Demand ◽  
Made In

The United Nations constitutes the global framework for most of the international activities on our planet, and it has been progressively exposed to more significant challenges involving an increasing demand for knowledge to accomplish its mission. Hence, from an analytical perspective, this work presents some reflections on the state of knowledge management in the UN and its impact on the fulfillment of the 2030 Agenda for Sustainable Development. The latter may be the biggest challenge in terms of knowledge that the United Nations has ever faced since its foundation. The importance of this study lies in the fact that it explores and provides information on a subject that has not been widely studied. The main conclusion is that, although some progress has been made in this field within this organization, the results have not reached the expected levels yet mainly due to the absence of a joint and integrated knowledge management strategy.

The Role of Soil Management in Minimizing Water and Nutrient Losses from the Urban Landscape

EDIS ◽  
2013 ◽  
Vol 2013 (11) ◽  
Author(s):  
George Hochmuth ◽  
Laurie Trenholm ◽  
Esen Momol ◽  
Don Rainey ◽  
Claire Lewis ◽  
...  
Keyword(s):  
Urban Areas ◽  
Urban Landscape ◽  
Water Infiltration ◽  
Nutrient Losses ◽  
Long Term Storage ◽  
Important Building Block ◽  
Term Storage ◽  
Reduced Water

Soil is the most important building block of a healthy, attractive landscape, serving many important physical, chemical, and biological functions. Soil provides a physical substrate for plant support and holds nutrients and water for plant use. It also facilitates groundwater recharge (water moving from surface water to groundwater) and provides long-term storage for organic matter. Soil also provides a habitat for microorganisms that aid in the transformation and availability of nutrients. Soil is an integral part of any ecosystem, but urbanization often changes soils in ways that negatively affect plant development. Soils in urban areas may have reduced water infiltration, resulting in increased runoff and increased potential for nutrient losses. Homeowners in urban areas often overcompensate for poor planting conditions by applying inappropriate amounts of fertilizer and water. These practices eventually lead to nutrient losses through stormwater runoff or soil leaching, and these lost nutrients negatively impact groundwater and ecosystems in nearby springs, streams, and water bodies. This 6-page fact sheet was written by George Hochmuth, Laurie Trenholm, Esen Momol, Don Rainey, Claire Lewis, and Brian Niemann, and published by the UF Department of Soil and Water Science, November 2013. http://edis.ifas.ufl.edu/ss593

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