ASTM D6033 Standard Guide for Describing the Functionality of a Groundwater Modeling Code
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- 13
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- 13.060
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- 13.060.10
- ASTM E2081 Standard Guide for Risk-Based Corrective Action
- ASTM D5880 Standard Guide for Subsurface Flow and Transport Modeling
- ASTM D6030 Standard Guide for Selection of Methods for Assessing Groundwater or Aquifer Sensitivity and Vulnerability
- ASTM D5880 Standard Guide for Subsurface Flow and Transport Modeling
- ASTM D5880 Standard Guide for Subsurface Flow and Transport Modeling
- ASTM D6030 Standard Guide for Selection of Methods for Assessing Groundwater or Aquifer Sensitivity and Vulnerability
- ASTM D6030 Standard Guide for Selection of Methods for Assessing Groundwater or Aquifer Sensitivity and Vulnerability
- ASTM D5490 Standard Guide for Comparing Groundwater Flow Model Simulations to Site-Specific Information
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D5611 Standard Guide for Conducting a Sensitivity Analysis for a Ground-Water Flow Model Application
- Картотека зарубежных и международных стандартов
ASTM International
Standard Guide for Describing the Functionality of a Groundwater Modeling Code
N D6033
Annotation
This guide presents a systematic approach to the classification and description of computer codes used in groundwater modeling. Due to the complex nature of fluid flow and biotic and chemical transport in the subsurface, many different types of groundwater modeling codes exist, each having specific capabilities and limitations. Determining the most appropriate code for a particular application requires a thorough analysis of the problem at hand and the required and available resources, as well as a detailed description of the functionality of potentially applicable codes.
Typically, groundwater modeling codes are nonparameterized mathematical descriptions of the causal relationships among selected components of the aqueous subsurface and the chemical and biological processes taking place in these systems. Many of these codes focus on the presence and movement of water, dissolved chemical species and biota, either under fully or partially saturated conditions, or a combination of these conditions. Other codes handle the joint movement of water and other fluids, either as a gas or a nonaqueous phase liquid, or both, and the complex phase transfers that might take place between them. Some codes handle interactions between the aqueous subsurface (for example, a groundwater system) and other components of the hydrologic system or with nonaqueous components of the environment.
The classification protocol is based on an analysis of the major function groups present in groundwater modeling codes. Additional code functions and features may be identified in determining the functionality of a code. A description of a code’s functionality contains the details necessary to understand the capabilities and potential use of a groundwater modeling code. Tables are provided with explanations and examples of functions and function groups for selected types of codes. Consistent use of the descriptions provided in the classification protocol and elaborate functionality analysis form the basis for efficient code selection.
