A Distributed Model Coupling Environment for Geophysical Processes
نویسنده
چکیده
The Model Coupling Environmental Library (MCEL) was developed to simplify the coupling process for models that exchange data at most every time step. Traditionally, model coupling is performed in three ways: file Input/Output (I/O), subroutinization, or Message Passing Interface (MPI). The traditional way of model coupling is through file I/O as shown by Blain1 and Hodur.2 In this case the models are left relatively unaltered and are executed for a very short length of time. Model preprocessors then transform the output files from one model into input files for the second model. Depending on the frequency of coupling, this can be a very costly alternative.
منابع مشابه
Geostatistical estimation to delineate oxide and sulfide zones using geophysical data; a case study of Chahar Bakhshi vein-type gold deposit, NE Iran
Delineation of oxide and sulfide zones in mineral deposits, especially in gold deposits, is one of the most essential steps in an exploration project that has been traditionally carried out using the drilling results. Since in most mineral exploration projects there is a limited drilling dataset, application of geophysical data can reduce the error in delineation of the sulfide and oxide zones....
متن کاملGeostatistical and multi-fractal modeling of geological and geophysical characteristics in Ghalandar Skarn-Porphyry Cu Deposit, Iran
This work aims at figuring out the spatial relationships between the geophysical and geological models in a case study pertaining to copper-sulfide mineralization through an integrated 3D analysis of favorable target. The Ghalandar Skarn-Porphyry Cu Deposit, which is located in NW Iran, is selected for this research work. Three geophysical surveys of direct current electrical resistivity and in...
متن کاملImproved extraction of hydrologic information from geophysical data through coupled hydrogeophysical inversion
[1] There is increasing interest in the use of multiple measurement types, including indirect (geophysical) methods, to constrain hydrologic interpretations. To date, most examples integrating geophysical measurements in hydrology have followed a three‐step, uncoupled inverse approach. This approach begins with independent geophysical inversion to infer the spatial and/or temporal distribution ...
متن کاملModel Predictive Control of Distributed Energy Resources with Predictive Set-Points for Grid-Connected Operation
This paper proposes an MPC - based (model predictive control) scheme to control active and reactive powers of DERs (distributed energy resources) in a grid - connected mode (either through a bus with its associated loads as a PCC (point of common coupling) or an MG (micro - grid)). DER may be a DG (distributed generation) or an ESS (energy storage system). In the proposed scheme, the set - poin...
متن کاملEnergy Consumption Modeling in Activated Sludge Process Using Coupling PCA-ANFIS Approach
The main challenge in Wastewater Treatment Plants (WWTP) by activated sludge process is the reduction of the energy consumption that varies according to the pollutant load of influent. However, this energy is fundamentally used for aerators in a biological process. The modeling of energy consumption according to the decision parameters deemed necessary for good control of the active sludge ...
متن کامل