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Revision as of 09:55, 19 October 2013

Short Course: Using Analytic Solutions and the Analytic Element Method for Solving Groundwater Problems

Announcing the short course "Using Analytic Solutions and the Analytic Element Method for Solving Groundwater Problems", October 16 through 19, 2013, Nelson, Wisconsin, offered by Strack Consulting, Inc. For information contract strackincaem@gmail.com.


International Conference on Analytic Element Method, May 31 - June 2, 2013, Golden, CO

The 6th International Conference on the Analytic Element Method (ICAEM) was held May 31 through June 2,2013 on the Colorado School of Mines campus in Golden, Colorado.

http://aem2013.ce.umn.edu

AnAqSimEdu - new free educational version of AnAqSim (analytic aquifer simulator).

AnAqSimEdu was developed as a supplement to the 2nd edition of the textbook Groundwater Science, published by Elsevier. AnAqSimEdu simulates single-layer steady flow with confined, unconfined, and interface domains. Allows heterogeneity and anisotropy. Line boundaries include: head-specified, normal flux-specified, river, interdomain. Nice user interface. Available at this link:

http://www.fittsgeosolutions.com/groundwaterscience.html

Fitts Geosolutions offers new analytic element software

AnAqSim (Analytic Aquifer Simulator) is groundwater flow modeling software based on an analytic element approach that divides the modeled region into subdomains (Fitts, 2010, Water Resources Research). It uses finite difference time steps to offer complete transient capabilities. AnAqSim handles multi-layer (3D) flow and also does fresh/salt water interface flow. AnAqSim is much more powerful and versatile than earlier analytic element programs like TWODAN (previous Fitts Geosolutions software).

Visit FittsGeoSolutions for more information.

Recent Publications in the AEM Wiki Bib

Steward, David R., and Andrew J. Allen, 2013. The analytic element method for rectangular gridded domains, benchmark comparisons and application to the High Plains Aquifer, Advances in Water Resources, http://dx.doi.org/10.1016/j.advwatres.2013.07.009, accepted.

Gaur, Shishir, Djamel Mimoun, Didier Graillot,2011. Advantages of the analytic element method for the solution of groundwater management problems, Hydrological Processes, DOI: 10.1002/hyp.8071, 11pp.

Bakker, M.,2010. Hydraulic modeling of riverbank filtration systems with curved boundaries using analytic elements and series solutions,Advances in Water Resources, 33,813-819.

Haitjema, Henk, Sergey Kuzin, Vic Kelson, Daniel Abrams, 2010. Modeling flow into horizontal wells in a Dupuit-Forchheimer model, Ground Water,48(6):878-883, November-December.

Fitts, C.R., 2010. Modeling aquifer systems with analytic elements and subdomains, Water Resour. Res., 46, W07521, doi:10.1029/2009WR008331.

Haitjema, H.M., D.T. Feinstein, R.J. Hunt, and M.A. Gusyev, 2010. A hybrid finite-difference and analytic element groundwater model, Ground Water, 48(4):538-548.

Mehnert, E., 2010. Groundwater flow modeling as a tool to understand watershed geology: Blackberry Creek watershed, Kane and Kendall Counties, Illinois, Illinois State Geological Survey, Circular,576, University of Illinois, Institute of Natural Resource Sustainability, Champaign, Illinois