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start:hype_tutorials:hype_setup_tutorial [2021/04/14 08:45] kisberg [Table] |
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===== Introduction ===== | ===== Introduction ===== | ||
- | This tutorial provides introductory guidelines for creating a new HYPE model set-up in a new model domain. These guidelines cover the creation and formatting of mandatory and optional input files for a basic HYPE rainfall-runoff and nutrient turnover model. HYPE requires all input data as a set of formatted text files (e.g. model domain information, observation data, or calibration parameters). All input files mentioned in this tutorial are documented in detail in the [[start:hype_file_reference|file reference section]] of the HYPE documentation pages. | + | This tutorial provides introductory guidelines for creating a HYPE model set-up in a new model domain. These guidelines cover the creation and formatting of mandatory and optional input files for a basic HYPE rainfall-runoff and nutrient turnover model. HYPE requires all input data as a set of formatted text files (e.g. model domain information, observation data, or calibration parameters). All input files mentioned in this tutorial are documented in detail in the [[start:hype_file_reference|file reference section]] of the HYPE documentation pages. |
This tutorial is a minor part of the main tutorial for HYPE: [[https://hypeweb.smhi.se/model-water/setting-up-hype/|Setting-Up HYPE]] | This tutorial is a minor part of the main tutorial for HYPE: [[https://hypeweb.smhi.se/model-water/setting-up-hype/|Setting-Up HYPE]] | ||
- | HYPE domains are spatially divided into sub-basins for which hydrological response units (HRUs) are derived. In order to create a HYPE model set-up, modellers will have to create a suitable sub-basin delineation based on a topographical database. SMHI provides the freeware GIS tool [[https://git.smhi.se/whist/whist/-/wikis/home/|WHIST]] (World Hydrological Input Setup Tool) which is especially suited for setting up large HYPE domains. WHIST provides additional functionality, e.g. to calculate HRU fractions for each sub-basin, and a convenient file export in HYPE-conform formattin but users can choose any GIS software suitable to derive sub-basins and flow routing connections and build their HYPE set-up workflow around them. | + | HYPE domains are spatially divided into sub-basins for which hydrological response units (HRUs) are derived. In order to create a HYPE model set-up, modellers will have to create a suitable sub-basin delineation based on a topographical database. SMHI provides the freeware GIS tool [[https://git.smhi.se/whist/whist/-/wikis/home/|WHIST]] (World Hydrological Input Setup Tool) which is especially suited for setting up large HYPE domains. WHIST provides additional functionality, e.g. to calculate HRU fractions for each sub-basin, and a convenient file export in HYPE-conform formatting but users can choose any GIS software suitable to derive sub-basins and flow routing connections and build their HYPE set-up workflow around them. |
The following links list further in-depth reading, complementary to this tutorial: | The following links list further in-depth reading, complementary to this tutorial: | ||
- | * The [[start:hype_tutorials:short_intro|Quick Guide]] gives an introduction to mandatory files and important parameters of a basic HYPE set-up | ||
* The [[start:hype_model_description|HYPE model description]] documents all process conceptualisations used in HYPE | * The [[start:hype_model_description|HYPE model description]] documents all process conceptualisations used in HYPE | ||
* The [[start:hype_file_reference|HYPE file reference]] provides a technical reference to all HYPE files, parameters and variables | * The [[start:hype_file_reference|HYPE file reference]] provides a technical reference to all HYPE files, parameters and variables |