|
- NetSTORM - DYNSYSTEM
NetSTORM adapts selected algorithms originally included in the U S Army Corps of Engineers HEC-STORM program and extends the STORM methodology to simulate systems with multiple control structures
- FileNewTemplate - DYNSYSTEM
Green-Ampt-Mein-Larsen (GAML) 1973: Mein-Larson formulation for steady rainfall Prior to saturation < , = F Saturation occurs when
- NetSTORM Support - DYNSYSTEM
Papers and reports referencing NetSTORM are listed here Refer to the help file or the Introduction to NetSTORM PDF included with the program's installation for help getting started
- Data Import and Export - DYNSYSTEM
NetSTORM can read US NCDC meteorologic data in several formats, including the TD-32000 and TD-3240 formats that have been used for many years for storing and transmitting daily and hourly precipitation data
- Precipitation Data Import
Precipitation data formats that NetSTORM can read are shown on the precipitation data format page It is acceptable to have multiple raingages in a single file When processing is complete, NCDC data flags are displayed along with the converted data
- SWMM 5 Simplification - DYNSYSTEM
Import - data are loaded from a SWMM5 input file into the SWMM5Simplification mdb database in the NetSTORM software folder The user may bypass this step and manually populate the required data tables if the model is being built directly from a database
- Read Menu - dynsystem. com
Read NOAA temperature data- NOAA daily minimum and maximum temperature data can be read into a format that can be used by SWMM or in NetSTORM to perform snowfall and snowmelt calculations
- IDF analysis - DYNSYSTEM
NetSTORM displays the coefficient of variation in its results A trial and error approach should be used to identify the appropriate interevent time As examples, it has been found to be 12 hours for Dallas, 8 hours in Indianapolis, and 5 hours in Boston
|
|
|