Zobrazeno 1 - 10
of 19
pro vyhledávání: '"Lawrence J. Hagen"'
Autor:
Charles J. Barden, Mark E. Casada, Howell B. Gonzales, Lawrence J. Hagen, Ronaldo G. Maghirang, John Tatarko
Publikováno v:
Transactions of the ASABE. 62:1713-1722
Maintaining vegetative cover on the soil surface is the most widely used method for control of soil loss by wind erosion. We numerically modeled airflow through artificial standing vegetation (i.e., simulated wheat plants) using computational fluid d
Autor:
John Tatarko, Mark E. Casada, Lawrence J. Hagen, Charles J. Barden, Ronaldo G. Maghirang, Howell B. Gonzales
Publikováno v:
Transactions of the ASABE. 61:641-652
Deciduous trees of the species (Osage orange) are commonly established as vegetative barriers for wind erosion control throughout the U.S. Great Plains. Because there is no previous research on the aerodynamic effectiveness of these vegetative barrie
Autor:
John Tatarko, Lawrence J. Hagen, Charles J. Barden, Howell B. Gonzales, Ronaldo G. Maghirang, Mark E. Casada
Publikováno v:
Transactions of the ASABE. 61:1907-1914
Little is known about the dust removal efficiency of common vegetative barriers. This study of blowing dust reduction was conducted on one of the most common vegetative barriers used for wind erosion control in Kansas and the U.S. Great Plains, the d
Publikováno v:
Transactions of the ASABE. 60:791-802
Crop residues help protect topsoil from depletion and abrasion due to wind erosion. Limited studies have focused on the type and orientation of canopies that help minimize the effects of erosion by wind. In this study, a series of wind tunnel experim
Publikováno v:
Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management. 13:20-28
A confined disposal facility (CDF) is being designed for 3.5 M m3 of contaminated sediments dredged from the Indiana Harbor Canal at East Chicago, Ind. The sediment will be placed in two cells enclosed by earthern berms about 9 m tall and cover about
Autor:
Lawrence J. Hagen
Publikováno v:
Transactions of the ASABE. 51:129-137
During significant wind erosion events, the soil surface is continually modified; however, erosion models rarely account for these changes. The objectives of this work are to provide an overview of the WEPS soil surface update methodology and demonst
Publikováno v:
Soil Erosion and Crop Productivity
Conditions conducive to wind erosion exist when the soil is loose, dry, and finely granulated; the soil surface is smooth and vegetative cover is sparse or absent; the susceptible area is sufficiently large; and the wind is strong and turbulent enoug
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::5d1a4397634049f0c7530c0085586a11
https://doi.org/10.2134/1985.soilerosionandcrop.c10
https://doi.org/10.2134/1985.soilerosionandcrop.c10
Publikováno v:
Environmental Modelling & Software. 19:177-183
The Wind Erosion Prediction System (WEPS) is a process-based model that simulates daily weather and field conditions along with hourly wind speeds and erosion. Its physical basis should allow model application to regions outside the US for which it w
Autor:
Lawrence J. Hagen
Publikováno v:
Environmental Modelling & Software. 19:171-176
This study represents part of a project by the Global Change and Terrestrial Ecosystem Soil Erosion Network to validate wind erosion models. Soil loss measurements from 46 storm events from eroding fields in six states were compared to predictions fr
Publikováno v:
Transactions of the ASAE. 42:1823-1832
Experimental and numerical modeling were conducted to determine the dust concentration distribution in a simulated, mechanically ventilated, swine nursery room under non-isothermal conditions. Effects of dust generation rate, temperature difference b