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== 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.
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== Anaqsim release 2023-1, new partnership with Yellow Sub Hydro ==
  
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In the past year, Fitts Geosolutions (USA) has teamed with Yellow Sub Hydro (UK) to work on Anaqsim jointly.  This is the first release from that joint effort.  This release includes many new improvements in computational performance and in outputs.  Visit the homepage click [https://www.anaqsim.com here].
  
== International Conference on Analytic Element Method, May 31 - June 2, 2013, Golden, CO ==
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== Bakker and Post book, Analytical Groundwater Modeling: theory and applications using Python ==
  
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.  
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Bakker, Mark Bakker & Vincent Post, 2022, Analytical Groundwater Modeling: Theory and Applications using Python, CRC Press Taylor & Francis, [https://doi.org/10.1201/9781315206134 doi: 10.1201/9781315206134]
  
http://aem2013.ce.umn.edu
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== Strack receives 2021 M. King Hubbert Award ==
  
== AnAqSimEdu - new free educational version of AnAqSim (analytic aquifer simulator). ==
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Professor Otto Strack of the University of Minnesota received the National Groundwater Association [https://www.ngwa.org/members/awards/m-king-hubbert-award-recipients M. King Hubbert Award 2021]
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
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== McLane presentation at MODFLOW and More 2019, Golden, Colorado ==
  
== Fitts Geosolutions offers new analytic element software ==
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"AEM --- Stepwise Tool for Analyzing Flow in Fractured Bedrock Aquifers", by Charles McLane, MODFLOW and More, Golden, CO, June 3, 2019 (27 minutes). 
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Click for [https://youtu.be/cUVGf6ffSIM Youtube video].
  
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 [http://www.fittsgeosolutions.com/ FittsGeoSolutions] for more information.
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== Recent Select Publications in the AEM [[wikibib]] ==
  
== Recent Publications in the [http://www.analyticelements.org/wiki/index.php/Wikibib AEM Wiki Bib] ==
 
  
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Kraemer, Stephen R. 2023. Analytic element domain boundary conditions for site-scale groundwater flow modeling Los Angeles Basin,Groundwater, [https://ngwa.onlinelibrary.wiley.com/doi/10.1111/gwat.13322 https://ngwa.onlinelibrary.wiley.com/doi/10.1111/gwat.13322]
  
Steward, David R., and Andrew J. Allen, 2013The 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.
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Strack, Otto DL and Toller, Erik AL. 2022An analytic element model for highly fractured elastic media, International Journal for Numerical and Analytical Methods in Geomechanics}, 46(2):297--314.
  
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.
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Leaf, Andrew T. and Fienen, Michael N. and Reeves, Howard W. 2021. SFRmaker and Linesink-Maker: Rapid Construction of Streamflow Routing Networks from Hydrography Data, Groundwater, 59(5):761-771, [https://doi.org/10.1111/gwat.13095 https://doi.org/10.1111/gwat.13095]
  
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.
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Ramgraber, Maximilian and Schirmer, Mario, 2021. Hydrogeological uncertainty estimation with the analytic element method, Water Resources Research, 57(6).
  
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.
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Steward, David R, 2020. Analytic Element Method: Complex Interactions of Boundaries and Interfaces, Oxford University Press,
  
Fitts, C.R., 2010. Modeling aquifer systems with analytic elements and subdomains, Water Resour. Res., 46, W07521, doi:10.1029/2009WR008331.
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Mohammadi, A and Ghaeini-Hessaroeyeh, M and Fadaei-Kermani, E, 2020. Contamination transport model by coupling analytic element and point collocation methods, Applied Water Sciences, 10(1):1-10.
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Koehn, Weston, 2020. Novel Hydrogeologic Characterization Methods: Utilizing the Analytic Element Method in Hydrogeophysical Studies, dissertation, Kansas State University.
  
Haitjema, H.M., D.T. Feinstein, R.J. Hunt, and M.A. Gusyev, 2010A hybrid finite-difference and analytic element groundwater model, Ground Water, 48(4):538-548.
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Haserodt, M.J., Hunt, R.J., Cowdery, T.K., Leaf, A.T., and Baker, A.C., 2019Simulation of the regional groundwater-flow system in the St. Louis River Basin, Minnesota: U.S. Geological Survey Scientific Investigations Report 2019–5033, 41 p., [https://doi.org/10.3133/sir20195033 doi.org/10.3133/sir20195033].
  
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
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Fitts, Charles R., 2018. Modeling dewatered domains in multilayer analytic element models, Groundwater, Methods Note, 56(4):557-561. July-August, [https://doi:10.1111/gwat.12645 doi:10.1111/gwat.12645].
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Strack, Otto D.L., 2017Analytical Groundwater Mechanics, Cambridge University Press, [http://www.cambridge.org/9781107148833 ISBN: 9781107148833]
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Strack, Otto D.L., 2017.  Vertically integrated flow in stratified aquifers, Journal of Hydrology, 548:794-800, [https://doi.org/10.1016/j.jhydrol.2017.01.039 doi.org/10.1016/j.jhydrol.2017.01.039].
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US EPA, 2016.  Analysis of the Transport and Fate of Metals Released from the Gold King Mine in the Animas and San Juan Rivers, Chapter 8 Potential Groundwater Effects, Appendix D. Groundwater Data and Methods (GFLOW), U.S. Environmental Protection Agency, Washington, DC, [https://analyticelements.org/pubs/report/EPA_2017_GKM_Groundwater.pdf EPA/600/R-16/296]

Revision as of 11:43, 8 November 2023

Anaqsim release 2023-1, new partnership with Yellow Sub Hydro

In the past year, Fitts Geosolutions (USA) has teamed with Yellow Sub Hydro (UK) to work on Anaqsim jointly. This is the first release from that joint effort. This release includes many new improvements in computational performance and in outputs. Visit the homepage click here.

Bakker and Post book, Analytical Groundwater Modeling: theory and applications using Python

Bakker, Mark Bakker & Vincent Post, 2022, Analytical Groundwater Modeling: Theory and Applications using Python, CRC Press Taylor & Francis, doi: 10.1201/9781315206134

Strack receives 2021 M. King Hubbert Award

Professor Otto Strack of the University of Minnesota received the National Groundwater Association M. King Hubbert Award 2021

McLane presentation at MODFLOW and More 2019, Golden, Colorado

"AEM --- Stepwise Tool for Analyzing Flow in Fractured Bedrock Aquifers", by Charles McLane, MODFLOW and More, Golden, CO, June 3, 2019 (27 minutes). Click for Youtube video.


Recent Select Publications in the AEM wikibib

Kraemer, Stephen R. 2023. Analytic element domain boundary conditions for site-scale groundwater flow modeling Los Angeles Basin,Groundwater, https://ngwa.onlinelibrary.wiley.com/doi/10.1111/gwat.13322

Strack, Otto DL and Toller, Erik AL. 2022. An analytic element model for highly fractured elastic media, International Journal for Numerical and Analytical Methods in Geomechanics}, 46(2):297--314.

Leaf, Andrew T. and Fienen, Michael N. and Reeves, Howard W. 2021. SFRmaker and Linesink-Maker: Rapid Construction of Streamflow Routing Networks from Hydrography Data, Groundwater, 59(5):761-771, https://doi.org/10.1111/gwat.13095

Ramgraber, Maximilian and Schirmer, Mario, 2021. Hydrogeological uncertainty estimation with the analytic element method, Water Resources Research, 57(6).

Steward, David R, 2020. Analytic Element Method: Complex Interactions of Boundaries and Interfaces, Oxford University Press,

Mohammadi, A and Ghaeini-Hessaroeyeh, M and Fadaei-Kermani, E, 2020. Contamination transport model by coupling analytic element and point collocation methods, Applied Water Sciences, 10(1):1-10.

Koehn, Weston, 2020. Novel Hydrogeologic Characterization Methods: Utilizing the Analytic Element Method in Hydrogeophysical Studies, dissertation, Kansas State University.

Haserodt, M.J., Hunt, R.J., Cowdery, T.K., Leaf, A.T., and Baker, A.C., 2019. Simulation of the regional groundwater-flow system in the St. Louis River Basin, Minnesota: U.S. Geological Survey Scientific Investigations Report 2019–5033, 41 p., doi.org/10.3133/sir20195033.

Fitts, Charles R., 2018. Modeling dewatered domains in multilayer analytic element models, Groundwater, Methods Note, 56(4):557-561. July-August, doi:10.1111/gwat.12645.

Strack, Otto D.L., 2017. Analytical Groundwater Mechanics, Cambridge University Press, ISBN: 9781107148833

Strack, Otto D.L., 2017. Vertically integrated flow in stratified aquifers, Journal of Hydrology, 548:794-800, doi.org/10.1016/j.jhydrol.2017.01.039.

US EPA, 2016. Analysis of the Transport and Fate of Metals Released from the Gold King Mine in the Animas and San Juan Rivers, Chapter 8 Potential Groundwater Effects, Appendix D. Groundwater Data and Methods (GFLOW), U.S. Environmental Protection Agency, Washington, DC, EPA/600/R-16/296