Estimating discharge from undular hydraulic jumps: Feasibility assessment based on flume experiments

Daniel  C. White; Elowyn Yager; Carl J. Legleiter; Gordon Grant; Laura A. Hempel; Christina M. Leonard; Katherine Adler; Merritt Elizabeth Harlan; Becky Fasth

doi:10.1029/2025WR040997

Estimating discharge from undular hydraulic jumps: Feasibility assessment based on flume experiments

Water Resources Research

By: Daniel C. White, Elowyn Yager, Carl J. Legleiter, Gordon Grant, Laura A. Hempel, Christina M. Leonard, Katherine Adler, Merritt Elizabeth Harlan, and Becky Fasth

https://doi.org/10.1029/2025WR040997

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Abstract

Rapids are common in steep rivers, often forming where flow transitions from supercritical (Froude number, Fr > 1) to subcritical (Fr < 1) through a hydraulic jump. When upstream Fr is supercritical but close to 1, this transition may occur as an undular hydraulic jump, exhibiting a train of stationary waves downstream of the jump toe. Previous studies proposed a method to estimate discharge using only UHJ wave spacing and channel width combined with a wave dispersion equation for large water depths relative to the UHJ wavelength. This method is based on the hypotheses that, by their presence, UHJs indicate near-critical flow conditions (Fr ≈ 1) and that wave celerity c is equal to and opposite the cross-sectionally averaged flow velocity U. However, these hypotheses have not been thoroughly tested. We used data from published UHJ flume experiments to test the hypotheses that Fr ≈ 1 and c = U, compare the deep-water and general wave dispersion equations, and evaluate the accuracy of discharge estimates. In these experiments, the stationary waves exhibited shallow depths relative to wavelength and flow was subcritical (Fr < 1) when averaged across multiple wavelengths. Additionally, wave celerity more closely approximated the surface flow velocity than U. By using a Fr representative of actual conditions and applying a coefficient to correct for c ≠ U , the accuracy of the discharge estimates improved. This finding suggests that the critical flow-based method is robust and can produce reliable streamflow estimates if the remotely observed wave trains are correctly interpreted as UHJs, without requiring in situ measurements.

Suggested Citation

White, D., Yager, E., Legleiter, C.J., Grant, G., Hempel, L.A., Leonard, C.M., Adler, K., Harlan, M.E., and Fasth, B., 2026, Estimating discharge from undular hydraulic jumps: Feasibility assessment based on flume experiments: Water Resources Research, v. 62, no. 3, e2025WR040997, 19 p., https://doi.org/10.1029/2025WR040997.

ISSN: 1944-7973 (online)

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Estimating discharge from undular hydraulic jumps: Feasibility assessment based on flume experiments
Series title	Water Resources Research
DOI	10.1029/2025WR040997
Volume	62
Issue	3
Publication Date	March 07, 2026
Year Published	2026
Language	English
Publisher	American Geophysical Union
Contributing office(s)	Office of Science Quality and Integrity, WMA - Observing Systems Division
Description	e2025WR040997, 19 p.