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== Misc ==
 
  
add your news here
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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].
  
== Update: ICAEM delayed until May 2012 ==
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== Bakker and Post book, Analytical Groundwater Modeling: theory and applications using Python ==
  
The next International Conference on the Analytic Element Method has been postponed until May 14,15, 16, 2012, Minneapolis, MN. Details to follow.
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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]
  
== AEM Modeling Short Course, August 6-7, 2009, Bethesda, MD ==  
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== Strack receives 2021 M. King Hubbert Award ==
  
I am pleased to announce that, in conjunction with S.S. Papadopolous and Associates, Inc., a 2-day short course entitled “Groundwater Model Development with the Analytic Element Method” will be offered on August 6-7 in Bethesda, MD.  
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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]
  
The course is geared to those interested in learning how to properly use the analytic element method for developing groundwater models at the local and regional scale. Further information is available at:
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== McLane presentation at MODFLOW and More 2019, Golden, Colorado ==
  
http://www.sspa.com/Software/AEM%20August%202009%20training.shtml
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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). 
 +
Click for [https://youtu.be/cUVGf6ffSIM Youtube video].
  
Early bird registration has been extended through July 20.  If you have any questions about the course, please do not hesitate to contact me, the instructor, James Craig, at jrcraig@uwaterloo.ca.
 
  
== Visual AEM version 1.0 released March 2008 ==
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== Recent Select Publications in the AEM [[wikibib]]  ==
  
Dear Visual Bluebird Users,
 
 
You are receiving this mail because you have either downloaded the Visual Bluebird groundwater modeling software or have otherwise expressed interest in the release of the newest version of VBB.
 
 
Visual Bluebird has been officially superseded by Visual AEM, version 1.0, with extended support for multiple analytical element models, limited transient flow, and multiple layers. Visual AEM can now be accessed via the following web page:
 
 
http://www.civil.uwaterloo.ca/jrcraig/VisualAEM/Main.html
 
 
Included in this current release:
 
 
·        Support for multi-layer modeling with the TimML numerical engine
 
·        Limited support for transient flow (Theis pumping wells)
 
·        Multi-species numerical contaminant transport using analytic (AEM) flow fields
 
·        More advanced analytical transport solutions (including parent-daughter decay/biodegradation)
 
·        Improved support for basemaps (vector or raster) and digital elevation models (DEMs)
 
·        A geological media database for importing common soil types and properties
 
·        Element geometric simplification routines
 
·        Extended support of contour labeling and visualization, with contour masking
 
·        Extended mesh and grid editing capabilities
 
·        Improved object manager features
 
·        More robust model checking
 
·        An updated version of the numerical engine Bluebird/Cardinal (version 3.5)
 
·        Many minor revisions, including bug removal       
 
 
As always, we encourage requests and suggestions! If you have any problems, complaints, or praise for the newest version, feel free to contact the author at jrcraig@uwaterloo.ca
 
 
Please feel free to forward this e-mail to other interested parties.
 
 
If you would like to be removed from this distribution list, please reply to this message with the heading “UNSUBSCRIBE”
 
 
Kind Regards,
 
 
James R. Craig, Ph.D.
 
Assistant Professor
 
Department of Civil and Environmental Engineering
 
University of Waterloo
 
jrcraig@uwaterloo.ca
 
http://www.civil.uwaterloo.ca/jrcraig/
 
(519) 888-4567 x37554
 
  
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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]
  
== Recent Publications in the [http://www.analyticelements.org/wiki/index.php/Wikibib AEM Wiki Bib] ==
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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.
  
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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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]
  
Igor Jankovic, David R. Steward, Randal J. Barnes and Gedeon Dagan, 2009. Is transverse macrodispersivity in three-dimensional groundwater transport equal to zero? A counterexample,Water Resources Research,45,W08415, doi:10.1029/2009WR007741.
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Ramgraber, Maximilian and Schirmer, Mario, 2021. Hydrogeological uncertainty estimation with the analytic element method, Water Resources Research, 57(6).
  
Strack, O.D.L., 2009The generating analytic element approach with application to the modified Helmholtz equation, Journal of Engineering Mathematics,64(2):163-191.
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Steward, David R, 2020Analytic Element Method: Complex Interactions of Boundaries and Interfaces, Oxford University Press,
  
Kuhlman, K.L., and S.P. Neuman, 2009. Laplace-transform analytic-element method for transient porous-media flow, Journal of Engineering Mathematics,64(2):113-130.
+
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.
  
Steward, David R. and Trevor S. Ahring, 2009An analytic solution for groundwater uptake by phreatophytes spanning spatial scales from plant to field to regional,J Eng Math,64(2):85-103.
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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].
  
Bandilla, K.W., and A.J. Rabideau, and I.Jankovic, 2009.  A parallel mesh-free contaminant transport model based on the nalytic Element and Streamline Methods, Advances in Water Resources,32(8):1143-1153,DOI: 10.1016/j.advwatres.2008.08.009,
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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].
http://www.sciencedirect.com/science/article/B6VCF-4TB18B0-5/2/7982ce66aa6bda7dc377ae3a07b5c61a,
 
keywords = contaminant transport, Analytic Element Method, streamline method,parallel processing, regional-scale modeling
 
  
Craig, J. R., 2009Analytic elements for flow in harmonically heterogeneous aquifers, Water Resour. Res., 45, keywords (analytic element method, pilot points, heterogeneous aquifers, interpolated conductivity), (http://www.agu.org/pubs/crossref/2009/2009WR007800.shtml).
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Strack, Otto D.L., 2017Analytical Groundwater Mechanics, Cambridge University Press, [http://www.cambridge.org/9781107148833 ISBN: 9781107148833]
  
Steward, D., et al., 2009Groundwater economics: an object-oriented foundation for integrated studies of irrigate agricultural systems, Water Resources Research,45,W05430,15pp., doi 10.1029/2008WR007149
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Strack, Otto D.L., 2017Vertically 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].
Keywords (analytic element method, econometric, geographic information science, common pool, collective action, groundwater management), (http://www.agu.org/pubs/crossref/2009/2008WR007149.shtml).
 
  
Bandilla, K. (2009)Large Scale Groundwater Flow and Contaminant Transport Modeling, Ph.D. dissertation, University at Buffalo, Igor Jankovic, Alan Rabideau, advisers.
+
US EPA, 2016Analysis 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]
 
 
Strack, O. D. L. (2009), Using Wirtinger calculus and holomorphic matching to obtain the discharge potential for an
 
elliptical pond, Water Resour. Res., 45, W01409, doi:10.1029/2008WR007128, http://www.agu.org/pubs/crossref/2009/2008WR007128.shtml.
 
 
 
Anderson, E.I., and M. Bakker (2008), Groundwater flow through anisotropic fault zones in multiaquifer systems, Water Resources Research,44(11),W11433,http://dx.doi.org/10.1029/2008WR006925.
 
 
 
Mark Bakker, Derivation and relative performance of strings of line elements for modeling (un)confined and semi-confined flow, Advances in Water ResourcesVolume 31, Issue 6, , June 2008, Pages 906-914.
 
(http://www.sciencedirect.com/science/article/B6VCF-4S0PKNG-2/1/f62af25c62ba97b380faa716b51a2e0a)
 
 
 
Steward, D. R., P. Le Grand, et al. (2008). "Analytic formulation of Cauchy integrals for boundaries with curvilinear geometry." Proceedings of the Royal Society a-Mathematical Physical and Engineering Sciences 464(2089): 223-248.
 
 
Mesa, E. and E. I. Anderson (2008). "A local model for analysis of pump and treat systems with vertical barrier walls." Advances in Water Resources 31(3): 473-483.
 

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

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