Brian Crookston
Water Hydraulics
Associate Professor
Contact Information
Office Location: ENGR 222, UWRL 232Phone: 435-797-0247
Email: brian.crookston@usu.edu
Educational Background
Licensures & Certifications
Biography
Brian’s research and consulting activities are focused on water sustainability and resiliency including: hydraulic structures, fluvial hydraulics, and modeling and technology. Brian has particular interest in spillways, chutes, energy dissipators, nonlinear weirs, physical and numerical modeling, machine learning algorithms, flow acoustics, scour and erosion, ecohydraulics, embankment failure, flooding, surface hydrology, and public safety and security at hydraulic structures.
Teaching Interests
Hydraulics, Fluid Mechanics, Open Channel Flow, Fluvial Hydraulics, Sedimentation, Computational Fluid Dynamics
Research Interests
Water Infrastructure Sustainability, Fluvial Hydraulics, Modeling and Technology, Public Safety, Flooding
Awards
2022-2023 Research Excellence, 2023
Utah State University - College of Engineering
2022-2023 CEE Outstanding Researcher, 2023
Utah State University - Dept. Civil and Environmental Engineering
2020-2021 CEE Undergraduate Mentor of the Year, 2021
Utah State University - Dept. Civil and Environmental Engineering
2020-2021 College of Engineering Undergraduate Mentor of the Year, 2021
Utah State University - College of Engineering
ASDSO Student Paper Competition Winner (Research Advisor), 2020
Association of State Dam Safety Officials
2019-2020 CEE Undergraduate Research Mentor of the Year, 2020
Utah State University - Dept. Civil and Environmental Engineering
ASDSO Student Model Competition (Advisor), 2020
Association of State Dam Safety Officials
Outstanding Reviewer, 2019
ASCE Journal of Irrigation and Drainage Engineering
Inaugural ASDSO Young Professional of the Year, 2018
Association of State Dam Safety Officials
Rising Stars Award in Civil Engineering, 2017
Civil + Structural Engineer
USSD/IAHR Award of Appreciation, 2016
United States Society on Dams & International Association of Hydro-environment Engineering and Research
Young Engineer of the Year, 2015
ASCE Engineers' Club of Philadelphia
CGS/ProQuest Distinguished Dissertation Award Nominee, 2012
CGS/ProQuest
USSD Student National Scholarship, 2008
United States Society on Dams
ASCE/AISC Student Steel Bridge Rocky Mountain Regional Champions, 2006
ASCE/AISC
Publications | Books
- Boes, R., Albayrak, I., Felder, S., Crookston, B., Heller, V., (2024). 10th International Symposium on Hydraulic Structures (ISHS), Part 1. ETH Zurich
- Boes, R., Albayrak, I., Felder, S., Crookston, B., Heller, V., (2024). 10th International Symposium on Hydraulic Structures (ISHS), Part 2. ETH Zurich
- Palermo, M., Ahmad, Z., Crookston, B.M, Erpicum, S., (2022). Proceedings of the 9th IAHR International Symposium on Hydraulic Structures (9th ISHS). . 9th International Symposium on Hydraulic Structures
- Erpicum, S., Mulligan, S., Crookston, B.M, (2022). Proceedings of the 8th International Junior Researcher and Engineer Workshop on Hydraulic Structures: 8th IJREWHS. USU Digital Commons
- Crookston, B., Tullis, B.P, (2016). Hydraulic Structures and Water System Management. 6th International Symposium on Hydraulic Structures
- Crookston, B.M, Van Wyke, D., Tullis, B.P, (2018). Chapter 5: Labyrinth Spillways: International Congress on Large Dams Bulletin 172. Technical Advancements in Spillway Design. Progress and Innovations from 1985 to 2015. . International Congress on Large Dams (ICOLD)
- Tullis, B.P, Young, N., Crookston, B., (2017). Physical modeling size-scale effects for labyrinth weirs with half-round crests: Labyrinth and Piano Key Weirs III: Proceedings of the 3rd International Workshop on Labyrinth and Piano Key Weirs (PKW 2017), February 22-24, 2017, Qui Nhon, Vietnam. CRC Press
Publications | Book Chapters
An asterisk (*) at the end of a publication indicates that it has not been peer-reviewed.
Publications | Journal Articles
Academic Journal
- Pandey, B.R, K C, M.R, Crookston, B., Zenz, G., (2024). Numerical Investigation of Different Stepped Spillway Geometries over a Mild Slope for Safe Operation Using Multi-Phase Model. Water by MPDI, 16:11, 1635. doi: 10.3390/w16111635
- Crookston, B.M, Flake, K., Felder, S., (2024). Flow nonuniformity and energy dissipation in moderate-sloped stepped chutes with a labyrinth crest. ASCE Journal Hydraulic Engineering, 150:5, 04024024-1-14. doi: 10.1061/JHEND8.HYENG-13881
- Panthi, M., Crookston, B.M, (2024). Self-Cleaning Ability of the Piano Key Weir with Driftwood Blockages. ASCE Journal Hydraulic Engineering, 50:4, 04024022-1-13. doi: 10.1061/JHEND8.HYENG-13846
- Sawassi, A., Khadra, R., Crookston, B., (2024). Water Banking as a Strategy for the Management and Conservation of a Critical Resource: A Case Study from Tunisia’s Medjerda River Basin. Sustainability, 2024:16(9), 3875, 1-20. doi: 10.3390/su16093875
- Joshi, I., Crookston, B.M, (2024). Flooding Impacts to Agricultural Lands with Changing Climate. World Journal of Agriculture and Soil Science / Iris Publishers, 9:2, doi: 10.33552/WJASS.2024.09.000707
- Sadeghfam, S., Shams, H., Crookston, B.M, Amini, A.B, Daneshfaraz, R., (2023). Reliability analysis of water supply channels for conveying design flow. Journal Irrigation and Drainage Engineering, 149:12, doi: 10.1061/JIDEDH.IRENG-10179
- Anderson, J., Lawanto, O., Crookston, B.M, Goodridge, W.H, (2023). Perceived Task Value of Engineering Undergraduate During COVID-19 Pandemic. Journal of International Engineering Education, 39:6, 1556-1565.
- Margetts, K., Lane, , Crookston, B.M, (2023). Driftwood Accumulation and Passage at V- and I-Rock Weirs in Mountain Streams. Journal of Coastal and Hydraulic Structures, 3:2023, Paper No. 25 pg 1-24. doi: 10.48438/jchs.2023.0025
- Sawassi, A., Palmisano, G., Crookston, B.M, Khadra, R., (2022). The Dominance Based Rough Set Method for learning about the patterns of flexibility allocation and design cost in large-scale irrigation systems. Agricultural Water Management, 272:October, doi: 10.1016/j.agwat.2022.107842
- Hassanpour, N., Sadeghfam, S., Abdollahpour, M., Crookston, B.M, (2022). Predicting hydraulic jump characteristics in a gradually expanding stilling basin with roughness elements by Sugeno Fuzzy Logic. Neural Computing and Applications, doi: 10.2166/hydro.2022.002
- Ngo, P.T, Khosravi, K., Safari, M.J, Khozani, Z.S, Crookston, B., Bui, D.T, (2022). Stacking ensemble-based hybrid algorithms for discharge computation in sharp-crested labyrinth weirs. Soft Computing / Springer Verlag, doi: 10.21203/rs.3.rs-729477/v1
- Khosravi, K., Khozani, Z.S, Melesse, A., Crookston, B.M, (2022). Intelligent flow discharge computation in a rectangular channel with a free overfall condition. Neural Computing and Applications, doi: 10.1007/s00521-022-07112-9
- Margetts, K., Crookston, B., (2022). Discussion of "Trapping large wood debris in rivers: Experimental study of novel debris retention system". ASCE Journal of Hydraulic Engineering, 148:5, 07022003 1-3. doi: 10.1061/(ASCE)HY.1943-7900.0001975
- Lantz, W., Crookston, B.M, Palermo, M., (2022). Evolution of Local Scour Downstream of Type A PK Weir in Non-cohesive Sediments. Journal of Hydrology and Hydromechanics, 70:2022/1, 103-113. doi: 10.2478/johh-2021-0035
- Vaughn, T., Crookston, B.M, (2022). Influence of Submerged Woody Debris at Labyrinth Weirs in River Applications. River Research and Applications, 38:2, 235-244. doi: https://doi.org/10.1002/rra.3900
- Jorgensen, T., Tullis, B.P, Crookston, B., (2021). Effects of a labyrinth weir with outlet ramps on downstream steep-stepped chute sidewall height requirements. ASCE Journal Irrigation and Drainage Engineering, 147:12
- Rasmussen, M., Dutta, S., Neilson, B.T, Crookston, B.M, (2021). CFD Model of the Density-driven Bidirectional Flows through the West Crack Breach in the Great Salt Lake Causeway. Water by MPDI, 13(17):2423, doi: 10.3390/w13172423
- Vaughn, T., Crookston, B.M, Pfister, M., (2021). Floating Woody Debris: Blocking Sensitivity of Labyrinth Weirs in Channel and Reservoir Applications. ASCE Journal Hydraulic Engineering, 147:11, doi: 10.1061/(ASCE)HY.1943-7900.0001937
- Lantz, W., Crookston, B.M, Palermo, M., (2021). Apron and Cutoff Wall Scour Protection for Piano Key Weirs. Water by MPDI
- Crookston, B.M, Erpicum, S., (2021). Hydraulic engineering of Dams - Book Review. Journal Hydraulic Research, doi: 10.1080/00221686.2021.1944927
- Tullis, B.P, Crookston, B.M, (2021). Editorial - Teaching Hydraulic Engineering and Design. ASCE Journal Hydraulic Engineering, 147:4, doi: https://doi.org/10.1061/(ASCE)HY.1943-7900.0001876
- Erpicum, S., Crookston, B.M, Bombardelli, F., Felder, S., Mulligan, S., Oertel, M., Palermo, M., (2021). Hydraulic Structures Engineering: An Evolving Science in a Changing World. WIREs Water, 8:2, 1-11. doi: http://dx.doi.org/10.1002/wat2.1505
- Jorgensen, T., Tullis, B.P, Crookston, B.M, (2021). Labyrinth weir outlet ramps: managing flow instability and discharge efficiency. ICE: Water Management, 174:3, 134-142 . doi: 10.1680/jwama.20.00061
- Bung, D.B, Crookston, B.M, Valero, D., (2020). Turbulent Free-surface Monitoring with an RGB-D Sensor: the Hydraulic Jump Case. Journal Hydraulic Research, doi: https://doi.org/10.1080/00221686.2020.1844810
- Tullis, B.P, Crookston, B.M, Brislin, J., Seamons, T., (2020). Geometric Effects on Discharge Relationships for Labyrinth Weirs. Journal of Hydraulic Engineering, 146:10, doi: 10.1061/(ASCE)HY.1943-7900.0001806
- Eslinger, K., Crookston, B.M, (2020). Energy Dissipation of Type A Piano Key Weirs. Water, 2020:12(5), doi: 10.3390/w12051253
- Palermo, M., Papanicolaou, T., Crookston, B.M, Bombardelli, F., Ettema, R., (2020). A new ASCE monograph: Scour at channel-control structures. ASCE Journal Hydraulic Engineering, 2020:146(7), doi: 10.1061/(ASCE)HY.1943-7900.0001778
- Valero, D., Bung, D., Crookston, B.M, (2020). Closure to “Energy Dissipation of a Type III Basin under Design and Adverse Conditions for Stepped and Smooth Spillways” by D. Valero, D. B. Bung, and B. M. Crookston. ASCE Journal of Hydraulic Engineering, 146:2, doi: 10.1061/(ASCE)HY.1943-7900.0001669
- Crookston, B.M, Smith, V., Welker, A., Campbell, D., (2020). Teaching hydraulic design: Innovative learning in the classroom and in the workplace. ASCE Journal Hydraulic Engineering, 146:3, doi: 10.1061/(ASCE)HY.1943-7900.0001715
- Tullis, B.P, Crookston, B.M, Young, N., (2019). Scale Effects in Free-Flow Nonlinear Weir Head-Discharge Relationships. ASCE Journal Hydraulic Engineering, 146:2, doi: 10.1061/(ASCE)HY.1943-7900.0001661
- Crookston, B.M, Erpicum, S., Tullis, B.P, Laugier, F., (2019). Hydraulics of Labyrinth and Piano Key Weirs: 100 Years of Prototype Structures, Advancements, and Future Research Needs. ASCE Journal of Hydraulic Engineering, 145:12, doi: 10.1061/(ASCE)HY.1943-7900.0001646
- Salazar, F., Crookston, B.M, (2019). A performance comparison of machine learning algorithms for arced labyrinth spillways. Water, 11:3, doi: 10.3390/w11030544
- Lodomez, M., Crookston, B.M, Tullis, B.P, Erpicum, S., (2018). Mitigation Techniques for Nappe Oscillations on Free Overfall Structures. Journal of Hydraulic Engineering, 145:2, doi: 10.1061/(ASCE)HY.1943-7900.0001558
- Valero, D., Bung, D.B, Crookston, B., (2018). Energy dissipation of a Type III basin under design and adverse conditions for stepped and smooth spillways. Journal of Hydraulic Engineering, 144:7, 04018036. doi: 10.1061/(ASCE)HY.1943-7900.0001482
- Crookston, B.M, Anderson, R., Tullis, B.P, (2018). Free-flow discharge estimation method for Piano Key weir geometries. Journal of Hydro-environment Research, 19:March 2018, 160--167. doi: 10.1016/j.jher.2017.10.003
- Crookston, B.M, Paxson, G.S, Savage, B.M, (2017). Closure to “Physical and Numerical Modeling of Large Headwater Ratios for a 15 degree Labyrinth Spillway” by Bruce M. Savage, Brian M. Crookston, and Greg S. Paxson. Journal of Hydraulic Engineering, 143:9, 07017012. doi: 10.1061/(ASCE)HY.1943-7900.0001186
- Hunt, S.L, Kadavy, K.C, Crookston, B.M, (2017). Discussion of “Simple Design Criterion for Residual Energy on Embankment Dam Stepped Spillways” by Stefan Felder and Hubert Chanson. Journal of Hydraulic Engineering, 143:5, 07017001. doi: 10.1061/(ASCE)HY.1943-7900.0001283
- Savage, B.M, Crookston, B.M, Paxson, G.S, (2016). Physical and numerical modeling of large headwater ratios for a 15 degree labyrinth spillway. Journal of Hydraulic Engineering, 142:11, 04016046. doi: 10.1061/(ASCE)HY.1943-7900.0001186
- Dabling, M.R, Tullis, B.P, Crookston, B.M, (2015). Closure to Staged Labyrinth Weir Hydraulics by M.R. Dabling, B.P. Tullis, and B.M. Crookston. Journal of Irrigation and Drainage, 141:10, 07015018. doi: 10.1061/(ASCE)IR.1943-4774.0000900
- Crookston, B.M, Tullis, B.P, (2014). Closure of "Hydraulic Design and Analysis of Labyrinth Weirs. I: Discharge Relationships". Journal of Irrigation and Drainage Engineering, 140:8, 07014022. doi: 10.1061/(ASCE)IR.1943-4774.0000752
- Dabling, M.R, Tullis, B.P, Crookston, B.M, (2013). Staged Labyrinth Weir Hydraulics. Journal of Irrigation and Drainage Engineering, 139:11, 955-960. doi: 10.1061/(ASCE)IR.1943-4774.0000636
- Crookston, B.M, Tullis, B.P, (2012). Hydraulic Design and Analysis of Labyrinth Weirs. 2: Nappe Aeration, Instability, and Vibration. Journal of Irrigation and Drainage Engineering, 139:5, 371-377. doi: 10.1061/(ASCE)IR.1943-4774.0000553
- Crookston, B.M, Tullis, B.P, (2012). Hydraulic design and analysis of labyrinth weirs. I: Discharge relationships. Journal of Irrigation and Drainage Engineering, 139:5, 363--370. doi: 10.1061/(ASCE)IR.1943-4774.0000558
- Crookston, B.M, Tullis, B.P, (2012). Scour Prevention in Bottomless Arch Culverts. International journal of sediment research, 27:2, 213-225. doi: 10.1016/S1001-6279(12)60029-8
- Crookston, B.M, Tullis, B.P, (2012). Labyrinth weirs: Nappe interference and local submergence. Journal of Irrigation and Drainage Engineering, 138:8, 757--765.
- Crookston, B.M, Tullis, B.P, (2012). Arced labyrinth weirs. Journal of Hydraulic Engineering, 138:6, 555-562. doi: 10.1061/(ASCE)HY.1943-7900.0000553
- Crookston, B.M, Tullis, B.P, (2011). Discharge efficiency of reservoir-application-specific labyrinth weirs. Journal of Irrigation and Drainage Engineering, 138:6, 564--568. doi: 10.1061/(ASCE)IR.1943-4774.0000451
- Crookston, B.M, Tullis, B.P, (2011). Incipient motion of gravel in a bottomless arch culvert. International Journal of Sediment Research, 26:1, 15--26. doi: 10.1016/S1001-6279(11)60072-3
Professional Journal
An asterisk (*) at the end of a publication indicates that it has not been peer-reviewed.
Publications | Technical Reports
Research Reports
- Crookston, B., Sharp, Z., (2024). Physical Model Study of the Second Raise of the Dog River Dam and Spillway. Utah Water Research Laboratory, Report No. 4728
- Crookston, B., Young, N., Sharp, Z., (2024). Sectional Model Report Prado Dam Spillway Physical Model Study. Utah Water Research Laboratory, Report No. 4631
- Crookston, B., Sharp, Z., (2024). General Model Report Prado Dam Spillway Physical Model Study. Utah Water Research Laboratory, Report No. 4630
- Dutta, S., Crookston, B., Dunn, D., Larsen, E., (2023). Salt Mass Balance of South Arm of Great Salt Lake, Report No 4659. Utah Water Research Laboratory, Report No. 4659
- Dutta, S., Crookston, B., Rasmussen, M., Larsen, E., (2022). Predicting Flow Through the West Crack breach of the GSL for Changing Lake Level. Utah Water Research Laboratory, Report No. 4556
- Dutta, S., Crookston, B., Rasmussen, M., Larsen, E., (2022). Predicting the Effect of Potential Berm Height Increase on Salinity Driven Flow through the West Crack breach of the Great Salt Lake using Computational Fluid Dynamics. Utah Water Research Laboratory, Report No. 4557
- Rice, J.D, Crookston, B., (2022). Infiltration for Roadside Treatments: Best Management Practices. Utah Water Research Laboratory, Report No. 4543 *
- Crookston, B., (2022). General Model Phase 1 Data Report Prado Dam Spillway. Utah Water Research Laboratory, Report No. 4558
- Crookston, B., Young, N., (2022). Physical modelling of Hardy Hydroelectric Project Auxiliary Spillway. Utah Water Research Laboratory, Report No. 4495
- Rice, J.D, Crookston, B., (2022). Expected Infiltration Rates for UDOT Long Term Stormwater BMPs with Roadway Environment Phase 1 Interim Report. Utah Water Research Laboratory, Report No. 4495
- Dutta, S., Crookston, B., Rasmussen, , Larsen, E., (2021). Predicting Flow through the Causeway of the Great Salt Lake using Hydrodynamic Simulations and Artificial Neural Networks. Utah DNR
- Crookston, B., Sharp, Z., (2020). Physical Modeling of Tule River, Spillway Enlargement Project (Success) Dam. Utah Water Research Laboratory, Report No. 4384
- Crookston, B., Valero, D., (2020). Physical Modeling of Ituango Right Diversion Tunnel Blockage and Emergency Works Report. Utah Water Research Laboratory, Report No. 4273
- Crookston, B., (2020). DMAD Labyrinth Spillway Numerical Model Study Report UWRL Report. Utah Water Research Laboratory, Report No. 4279
- Crookston, B., Lantz, W., (2019). Hydraulic Model Study of the Central Valley Water Water Reclamation Facility. Utah Water Research Laboratory, Report No. 4218
- Crookston, B., (2019). Dry Creek Modification Spillway Numerical Model Study. Utah Water Research Laboratory, Report No. 4217
- Tullis, B.P, Crookston, B., (2018). Lake Ralph Hall and Leon Hurse Dam Spillway Model . Utah Water Research Laboratory, Report No. 4113
- Tullis, B.P, Crookston, B., (2008). Lake Townsend Dam Spillway Hydraulic Model Study Report. Utah Water Research Laboratory, Report No. 1816
- Crookston, B., Tullis, B.P, (2006). Preliminary Study of Scour in Bottomless Culverts. Alaskan Dept. of Transportation and Public Facilities
An asterisk (*) at the end of a publication indicates that it has not been peer-reviewed.
Publications | Other
Magazine/Trade Publications
- Mulligan, S., Felder, S., Pummer, E., Valero, D., Heller, V., Erpicum, S., Oertel, M., Bombardelli, F., Crookston, B.M, (2023). Hydraulic Structures - At the Heart of 21st Century Global Sustainability Development. Hydrolink
- Crookston, B.M, Johnson, , Hotchkiss, R., (2021). Working Together to Improve Public Safety at Low-head Dams. Dams & Levees / United States Society on Dams and Naylor, LLC
- Erpicum, S., Lemperiere, F., Ouamane, A., Ho Ta Khanh, M., Laugier, F., Tullis, B.P, Crookston, B.M, (2020). From Labyrinth to Piano Key Weirs: The Story. Hydrolink
- Bung, D., Crookston, B.M, (2019). 7th International Symposium on Hydraulic Structures: A Retrospect. Hydrolink
- Crookston, B.M, Miglio, A., Papanicolaou, T., (2018). New EWRI Task Committee on Scour at Various In-stream Hydraulic Structures. ASCE EWRI Currents
- Barfuss, S., Crookston, B.M, (2018). Unauthorized extreme activities and public safety at spillways. Hydrolink
Other
- KC, M.R, Crookston, B.M, (2024). A laboratory study on the energy dissipation of a bevel-faced stepped spillway for embankment dam applications. 10th International Symposium on Hydraulic Structures, ETH Zurich
- Allen, J.D, Phillips, M., Crookston, B.M, Diaz, Y., (2024). Comparison of head-discharge relationships from an arced high-head submerged labyrinth weir, Prado Dam: A case study. 10th International Symposium on Hydraulic Structures, ETH Zurich
- Phillips, M., Crookston, B.M, Allen, J.D, (2024). Hydrodynamic pressures on high-head high labyrinth weir walls with consideration for weir wall structural loadings - a case study - Prado Dam Spillway. 10th International Symposium on Hydraulic Structures, ETH Zurich
- Panthi, M., Crookston, B.M, Phillips, M., (2024). Local scour at spillways: Coping under extreme hydrologic events. 10th International Symposium on Hydraulic Structures, ETH Zurich
- Diaz, Y., Phillips, M., Crookston, B.M, Allen, J.D, (2024). Submerged Flip Bucket Performance and Scour Profile – A case study – Prado Dam Spillway. 10th International Symposium on Hydraulic Structures, ETH Zurich
- Langohr, P., Bung, D., Crookston, B.M, (2022). A numerical investigation on residual energy of labyrinth weirs. 9th International Symposium on Hydraulic Structures
- Palermo, M., Ahmad, Z., Crookston, B.M, Erpicum, S., (2022). Foreword to Proceedings of the 9th IAHR International Symposium on Hydraulic Structures (9th ISHS). . 9th International Symposium on Hydraulic Structures
- Crookston, B.M, Rasmussen, M., Larsen, E., Kartchner, H., Dutta, S., (2022). Predicting Density-Driven Exchange Flows Through the West Crack Breach of the Great Salt Lake Causeway with CFD and ANN. 9th International Symposium on Hydraulic Structures
- Panthi, , Crookston, B.M, (2022). Will large woody debris alter the self-cleaning ability of a piano key weir?. International Association of Hydro-environmental Engineering and Research
- Lepsch, C., Crookston, B.M, Harrison, J., Dam Good Fishing without the Snags - Fish Passage at a Low Head Dam. Association of State Dam Safety Officials
- Crookston, B.M, Bung, D.B, (2022). Application of RGB-D cameras in hydraulic laboratory studies. 39th AIRH World Congress, 2022
- Langohr, P., Bung, D.B, Crookston, B.M, (2022). Hybrid investigation of labyrinth weirs: Discharge capacity and energy dissipation. 39th AIRH World Congress, 2022
- Crookston, B.M, Arnold, C.R, (2022). Improving public safety at low head dams through identification using deep learning, ARCGIS Pro, and aerial imagery. 39th AIRH World Congress, 2022
- Crookston, B.M, Flake, L.K, (2022). Hydraulic Design Guidance for a Moderate-sloped Stepped Chute with a Labyrinth Crest. 2022 USSD Annual Conference and Exhibition
- Erpicum, S., Mulligan, S., Crookston, B.M, (2022). Foreword to Proceedings of the 8th International Junior Researcher and Engineer Workshop on Hydraulic Structures: 8th IJREWHS. USU Digital Commons
- Crookston, B.M, (2022). Hydraulic Structures Collaborations: Mind the Gap of Industry and Academia: 8th IJREWHS. 8th IJREWHS - IAHR Conference Proceedings
- Felder, S., Erpicum, S., Mulligan, S., Valero, D., Zhu, D., Crookston, B.M, (2021). Hydraulic structures at a crossroads towards the sustainable development goal. IAHR White Paper
- Moses, D., Crookston, B.M, Thornton, C., (2021). Evaluation of Step Edge Geometry on Energy Dissipation of Stepped Chutes: An Informative Comparison. Dam Safety 2021, Association of State Dam Safety Officials, Conference Proceedings
- Crookston, B.M, M., Hotchkiss, R., (2021). Professional, Civic, and Private Partnerships to Improve Public Safety at Low-head Dams. Dam Safety 2021, Association of State Dam Safety Officials
- Chakraborty, S., Cardwell, M., Crookston, B.M, Hotchkiss, R., (2021). Using Deep Learning and Aerial Imagery to Identify Low-head Dams. Dam Safety 2021, Association of State Dam Safety Officials
- Crookston, B., Hotchkiss, R., Arnold, C.R, (2021). Towards a national inventory of low-head dams: volunteers leveraging online tools. ASDSO
- Margetts, K., Crookston, B., (2021). Probability of Woody Debris Passage at Rock Weirs. USU Digital Commons
- Hotchkiss, R., Johnson, M., Crookston, B.M, (2020). Creating a National Inventory of Low Head Dams in USA. Dam Safety 2020
- Lantz, W., Crookston, B.M, Palermo, M., (2020). Flood Infrastructure: Localized Scour at Piano Key Weirs. Dam Safety 2020
- Palermo, M., Crookston, B.M, Pagliara, S., (2020). Analysis of Equilibrium Morphologies Downstream of a PK Weir Structure. EWRI Congress 2020
- Crookston, B.M, (2020). A Laboratory Investigation on Residual Energy of Nonlinear Weirs. 8th International Symposium on Hydraulic Structures
- Salazar, F., Crookston, B.M, Hariri-Ardebili, M.A, Conde, A., Vicente, D.J, (2019). Combination of advanced numerical methods and machine learning in dam safety assessment. 11th ICOLD European Club Symposium
- Tullis, B.P, Crookston, B.M, (2019). Linear weir head-discharge relationships: a multi-lab exercise. 2019 IAHR World Congress
- Repko, A., Crookston, B.M, Barfuss, S.L, (2019). Hazard and biodynamic responses for evaluation of public safety at dams. 36th Annual USSD Conference
- Tullis, B.P, Young, N., Crookston, B., (2018). Size-Scale Effects of Labyrinth Weir Hydraulics. International Symposium on Hydraulic Structures 2018
- Bass, R., Crookston, B., Dean, J., Collins, J.R, (2018). Fine Tuning a Piano Key Weir: The story of the Lake Peachtree Spillway Replacement Project. Dam Safety 2018
- Crookston, B., Barfuss, S.L, (2018). Responding to unauthorized extreme activities at spillways in order to improve public safety. ICOLD 2018 26th Congress -86th Annual Meeting
- Hepler, T., Young, J., Crookston, B.M, Crowder, J., (2018). Successful Overtopping Protection Projects in the Eastern U.S.. 3rd International Conference on Protection against Overtopping
- Crookston, B., Crowley, L., Johnson, C., Bung, D.B, (2017). Effective application of three-dimensional numerical modeling for the design and analysis of dams. Dam Safety 2017
- Hepler, T., Crookston, B., Fiedler, B., Toledo, M., (2017). Technical Summary of Protections 2016. Dam Safety 2017
- Brown, W., Crookston, B., (2016). Investigating Supercritical Flows in Curved Open Channels with Three Dimensional Numerical Modeling. 6th International Symposium on Hydraulic Structures
- Lodomez, M., Crookston, B., Tullis, B.P, Pirotton, M., (2016). Nappe Vibration Mitigation Techniques for Free-overfall Structures. 6th International Symposium on Hydraulic Structures
- Valero, D., Bung, D., Crookston, B., Matos, J., (2016). Numerical investigation of USBR type III stilling basin performance downstream of smooth and stepped spillways. 6th International Symposium on Hydraulic Structures
- Crookston, B., Tullis, B.P, (2016). Hydraulic Structures and Water System Management-ISHS2016 in Perspective. 6th International Symposium on Hydraulic Structures
- Crowder, J., Crookston, B., Boyer, B., Coats, T., (2016). Cultivating Ingenuity and Dam Safety in Alabama: The Taming of Lake Ogletree Reservoir. 36th Annual USSD Conference
- Roblee, G., Crookston, B.M, Kees, S., Keel, K., (2016). Ensuring Water Supply Reliability with Innovative PK Weir Spillway Design: 36th Annual USSD Conference. USSD
- Crookston, B., Tullis, B.P, (2014). Mitigation investigation of flow-induced vibrations at a rehabilitated spillway: 11th National Conference on Hydraulics in Civil Engineering \& 5th International Symposium on Hydraulic Structures: Hydraulic Structures and Society-Engineering Challenges and Extremes.
- Paxson, G., Monroe, J., Crookston, B., Campbell, D., (2013). Balancing Site Considerations with Hydraulic Efficiency for Labyrinth Spillways: ICOLD 2013 International Symposium at Seattle Washington.
- Crookston, B.M, Campbell, D., Paxson, G., (2013). Increasing Hydraulic Design Flexibility of Labyrinth Spillways: ICOLD 2013 International Symposium at Seattle Washington.
- Paxson, G., Crookston, B., Tullis, B.P, (2012). Spillways in 3D: ASDSO Southeast Regional Conference at Louisville Kentucky.
- Crookston, B., Tullis, B.P, (2010). Hydraulic performance of labyrinth weirs: Proc. 3rd International Junior Researcher and Engineer Workshop on Hydraulic Structures, Edimburg, R. Janssen, H. Chanson, eds. Hydraulic model report CH80/10, University of Queensland, Brisbane.
- Crookston, B., Tullis, B.P, (2007). A laboratory study of streambed stability in bottomless culverts: World Environmental and Water Resources Congress 2007: Restoring Our Natural Habitat.
- Tullis, B.P, Crookston, B.M, (2007). Dam Outlet Works, More than Just Equations: 2007 Annual ASDSO Conference, Austin Texas.
An asterisk (*) at the end of a publication indicates that it has not been peer-reviewed.