Author: Hung Shen (Tao)
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels: User's manual for the lake-river oil spill simulation model
Author: Hung Shen (Tao)
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels
Author: Hung Shen (Tao)
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels. Volume 3. User's Manual for the Lake-River Oil Spill Simulation Model
Author: Hung T. Shen
Publisher:
ISBN:
Category :
Languages : en
Pages : 239
Book Description
In this study, two computer models named as ROSS and LROSS are developed for simulating oil slick transport in rivers and lakes, respectively. The oil slick transformation processes considered in these models include advection, spreading, evaporation and dissolution. These models can be used for slicks of any shape originated from instantaneous or continuous spills in rivers and lakes with or without ice covers. Although developed for the need of the connecting channels in the upper Great Lakes, including the Detroit RIver, Lake St. Clair, St, Clair River, and St. Marys River, these models are site independent and can be used to others rivers and lakes. The programs are written in FORTRAN language to be compatible with FORTRAN77 compiler. The models are designed to be used on both mainframe and microcomputers. Keywords: Ice regions. (KR).
Publisher:
ISBN:
Category :
Languages : en
Pages : 239
Book Description
In this study, two computer models named as ROSS and LROSS are developed for simulating oil slick transport in rivers and lakes, respectively. The oil slick transformation processes considered in these models include advection, spreading, evaporation and dissolution. These models can be used for slicks of any shape originated from instantaneous or continuous spills in rivers and lakes with or without ice covers. Although developed for the need of the connecting channels in the upper Great Lakes, including the Detroit RIver, Lake St. Clair, St, Clair River, and St. Marys River, these models are site independent and can be used to others rivers and lakes. The programs are written in FORTRAN language to be compatible with FORTRAN77 compiler. The models are designed to be used on both mainframe and microcomputers. Keywords: Ice regions. (KR).
Simulation of Oil Slick Transport in Great Lakes Connecting Channels: User's manual for the lake-river oil spill simulation model
Author: Hung Shen (Tao)
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels: User's manual for the microcomputer-based interactive program
Author: Hung Shen (Tao)
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Publisher:
ISBN:
Category : Algorithms
Languages : en
Pages :
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels. Volume 4. User's Manual for the Microcomputer-Based Interactive Program
Author: Poojitha D. Yapa
Publisher:
ISBN:
Category :
Languages : en
Pages : 102
Book Description
In this study, two computer models named as ROSS and LROSS are developed for simulating oil slick transport in rivers and lakes, respectively. The oil slick transformation processes considered in these models include advection, spreading, evaporation, and dissolution. These models can be used for slicks of any shape originated from instantaneous or continuous spills in rivers and lakes with or without ice covers. Although developed for the need of the connecting channels in the upper Great Lakes, including the Detroit River, Lake St. Clair and St. Marys River, these models are site independent and can be used to other rivers and lakes. The programs are written in FORTRAN programming language to be compatible with FORTRAN77 compiler. The models are designed to be used on mainframe and microcomputers. Keywords: Data files, Graphics programs, Hardware and software. (kr).
Publisher:
ISBN:
Category :
Languages : en
Pages : 102
Book Description
In this study, two computer models named as ROSS and LROSS are developed for simulating oil slick transport in rivers and lakes, respectively. The oil slick transformation processes considered in these models include advection, spreading, evaporation, and dissolution. These models can be used for slicks of any shape originated from instantaneous or continuous spills in rivers and lakes with or without ice covers. Although developed for the need of the connecting channels in the upper Great Lakes, including the Detroit River, Lake St. Clair and St. Marys River, these models are site independent and can be used to other rivers and lakes. The programs are written in FORTRAN programming language to be compatible with FORTRAN77 compiler. The models are designed to be used on mainframe and microcomputers. Keywords: Data files, Graphics programs, Hardware and software. (kr).
Simulation of Oil Slick Transport in Great Lakes Connecting Channels. User's Manual for the River Il Spill Simulation Model (ROSS.
Author: Hung T. Shen
Publisher:
ISBN:
Category :
Languages : en
Pages : 100
Book Description
Two computer models, named ROSS and LROSS, have been developed for simulating oil slick transport in rivers and lakes, respectively. The oil slick transformation processes considered in these models include advection, spreading, evaporation and dissolution. These models can be used for slicks of any shape originating from instantaneous or continuous spills in rivers and lakes with or without ice covers. Although developed for the connecting channels in the upper Great Lakes, including the Detroit River, Lake St. Clair, the St. Clair River and the St. Marys River, these models are site independent and can be used for other rivers and lakes. The programs are written in FORTRAN programming language to be compatible with the FORTRAN77 compiler. In addition, a user-friendly, menu-driven program with graphics capability was developed for the IBM-PC AT computer, so that these models can be easily used to assist the cleanup action in the connecting channels should an oil spill occur.
Publisher:
ISBN:
Category :
Languages : en
Pages : 100
Book Description
Two computer models, named ROSS and LROSS, have been developed for simulating oil slick transport in rivers and lakes, respectively. The oil slick transformation processes considered in these models include advection, spreading, evaporation and dissolution. These models can be used for slicks of any shape originating from instantaneous or continuous spills in rivers and lakes with or without ice covers. Although developed for the connecting channels in the upper Great Lakes, including the Detroit River, Lake St. Clair, the St. Clair River and the St. Marys River, these models are site independent and can be used for other rivers and lakes. The programs are written in FORTRAN programming language to be compatible with the FORTRAN77 compiler. In addition, a user-friendly, menu-driven program with graphics capability was developed for the IBM-PC AT computer, so that these models can be easily used to assist the cleanup action in the connecting channels should an oil spill occur.
Simulation of Oil Slick Transport in Great Lakes Connecting Channels
Author: Hung Tao Shen
Publisher:
ISBN:
Category : Great Lakes (North America)
Languages : en
Pages : 80
Book Description
Publisher:
ISBN:
Category : Great Lakes (North America)
Languages : en
Pages : 80
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels
Author: Hung Tao Shen
Publisher:
ISBN:
Category : Great Lakes (North America)
Languages : en
Pages : 104
Book Description
Publisher:
ISBN:
Category : Great Lakes (North America)
Languages : en
Pages : 104
Book Description
Simulation of Oil Slick Transport in Great Lakes Connecting Channels
Author: Hung Tao Shen
Publisher:
ISBN:
Category : Great Lakes (North America)
Languages : en
Pages : 40
Book Description
Two-dimensional computer models for simulating oil slick movement in rivers and lakes were developed and then applied to the connecting channels of the upper Great Lakes. In these models the oil slick is considered to be a collection of discrete oil patches. The transformation of an oil slick due to advection, spreading, evaporation and dissolution are considered. In open-water regions the advection of oil patches in the slick are determined by the water current and wind using the drifting factor formulation. Formulas consider the balance of inertia, gravity, viscous and surface tension forces. The oil slick transformation model developed in this study contains as many processes as can be effectively and analytically modeled. The model has several special features, including the ability to model instantaneous and continuous spills, the ability to realistically describe the irregular shapes of an oil slick and the ability to account for the time-dependent variation of the flow conditions. The computer programs are designed so that it will be easy to refine the model elements and expand the model to include additional slick transformation processes. Keywords: Ice cover; Formulas mathematics; Oil spills/circulation; Turbulent diffusion, Transformations mathematics. (edc).
Publisher:
ISBN:
Category : Great Lakes (North America)
Languages : en
Pages : 40
Book Description
Two-dimensional computer models for simulating oil slick movement in rivers and lakes were developed and then applied to the connecting channels of the upper Great Lakes. In these models the oil slick is considered to be a collection of discrete oil patches. The transformation of an oil slick due to advection, spreading, evaporation and dissolution are considered. In open-water regions the advection of oil patches in the slick are determined by the water current and wind using the drifting factor formulation. Formulas consider the balance of inertia, gravity, viscous and surface tension forces. The oil slick transformation model developed in this study contains as many processes as can be effectively and analytically modeled. The model has several special features, including the ability to model instantaneous and continuous spills, the ability to realistically describe the irregular shapes of an oil slick and the ability to account for the time-dependent variation of the flow conditions. The computer programs are designed so that it will be easy to refine the model elements and expand the model to include additional slick transformation processes. Keywords: Ice cover; Formulas mathematics; Oil spills/circulation; Turbulent diffusion, Transformations mathematics. (edc).