Da Ha scite author profile

Da Ha

4Publications

34Citation Statements Received

58Citation Statements Given

How they've been cited

116

How they cite others

Affiliations

Tianjin University, University of California, Santa Barbara, Nankai University

Publications

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An aerodynamic bearing with adjustable geometry and self-lifting capacity. Part 1: Self-lift capacity by squeeze film

Stolarski

Yoshimoto

2005

Proceedings of the Institution of Mechanical Engineers, Part J:

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An aerodynamic bearing capable of self-lift by squeeze film is presented. The bearing uses piezoelectric actuators and elastic hinges in order elastically to deform the initial cylindrical clearance to a three-lobe clearance. The three-lobe clearance can cyclically deform with sufficient amplitude and frequency to generate a squeeze-film pressure. This squeeze-film separates the shaft and bearing surfaces, and eliminates rubbing of the two surfaces at low rotational speeds. Numerical and experimental results show that, although the proposed bearing has a relatively low squeeze-film load capacity, it is practically feasible.

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Spatial and Temporal Downscaling of TRMM Precipitation with Novel Algorithms

Zhang

Loáiciga

et al. 2020

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Tropical Rainfall Measuring Mission (TRMM) satellite products constitute valuable precipitation datasets over regions with sparse rain gauge networks. Downscaling is an effective approach to estimating the precipitation over ungauged areas with high spatial resolution. However, a large bias and low resolution of original TRMM satellite images constitute constraints for practical hydrologic applications of TRMM precipitation products. This study contributes two precipitation downscaling algorithms by exploring the nonstationarity relations between precipitation and various environment factors [daytime surface temperature (LTD), terrain slope, normalized difference vegetation index (NDVI), altitude, longitude, and latitude] to overcome bias and low-resolution constraints of TRMM precipitation. Downscaling of precipitation is achieved with the geographically weighted regression model (GWR) and the backward-propagation artificial neural networks (BP_ANN). The probability density function (PDF) algorithm corrects the bias of satellite precipitation data with respect to spatial and temporal scales prior to downscaling. The principal component analysis algorithm (PCA) provides an alternative method of obtaining accurate monthly rainfall estimates during the wet rainfall season that minimizes the temporal uncertainties and upscaling effects introduced by direct accumulation (DA) of precipitation. The performances of the proposed downscaling algorithms are assessed by downscaling the latest version of TRMM3B42 V7 datasets within Hubei Province from 0.25° (about 25 km) to 1-km spatial resolution at the monthly scale. The downscaled datasets are systematically evaluated with in situ observations at 27 rain gauges from the years 2005 through 2010. This paper’s results demonstrate the bias correction is necessary before downscaling. The high-resolution precipitation datasets obtained with the proposed downscaling model with GWR relying on the NDVI and slope are shown to improve the accuracy of precipitation estimates. GWR exhibits more accurate downscaling results than BP_ANN coupled with the genetic algorithm (GA) in most dry and wet seasons.

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Experimental study on the artificial recharge of semiconfined aquifers involved in deep excavation engineering

Zheng

Cao

Cheng

et al. 2018

Journal of Hydrology

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Long-term groundwater level changes and land subsidence in Tianjin, China

Zheng

Loáiciga

et al. 2020

Acta Geotech.

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Da Ha

An aerodynamic bearing with adjustable geometry and self-lifting capacity. Part 1: Self-lift capacity by squeeze film

Spatial and Temporal Downscaling of TRMM Precipitation with Novel Algorithms

Experimental study on the artificial recharge of semiconfined aquifers involved in deep excavation engineering

Long-term groundwater level changes and land subsidence in Tianjin, China

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