Dynamita, www.dynamita.com, Sigale, France
SUMO is a third generation wastewater process simulation software. It was put together by a dedicated team with professionalism and thousands of days of tender loving care. Enjoy, and please let us know if you find somewhere it is coming short of your expectations. We will do our best to improve it.
Imre Takács, on behalf of the whole Dynamita team
Sigale-Toulouse-Budapest-Toronto-Innsbruck
Released: November, 2024
Last updated: December, 2024
¶ Contact
This Manual, the Sumo software, SumoSlang and related technologies are the copyright of Dynamita.
Copyright 2010-2024, Dynamita
Dynamita SARL
2015 route d’Aiglun
Sigale, 06910
France
Mobile in France: +33.6.42.82.76.81
¶ About SUMO
SUMO is a powerful, open process source, multipurpose simulation environment developed for environmental models, particularly municipal and industrial wastewater treatment plant modelling. A wide range of BNR plant configurations can be simulated in SUMO, as well as SBR, HPO, MABR and MBBR systems. Sumo models are written in an Excel based open process source code language called SumoSlang (SUMO Simulation Language, copyright Dynamita).
SUMO can simulate traditional biokinetic models dynamically or in steady-state, mixed equilibrium-kinetic models and direct algebraic models, depending on the simulation mode.
SUMO is supplied with internally researched and developed whole plant models as well as focus models (e.g. with focus on sulfur, high rate plants and the fate of nitrogen and GHG). The seven most widely known published biokinetic models are also included among the Museum models.
SUMO models can be run through several different interfaces. The most widely used is “Sumo”, an intuitive graphical user interface:
SUMO24 is able to communicate with other programs such as Excel, Python, Matlab, etc., through its Digital Twin Toolkit (DTT). Please note that the Digital Twin Toolkit (DTT) will only work with a valid DTT license, which is available separately from the SUMO license.
¶ Contents
The SUMO User Manual is organized into the following chapters:
Chapter 1 – Installation
Chapter 2 – Using SUMO for simulations
Chapter 3 – Advanced simulations
Chapter 4 – Controllers
Chapter 5 – Energy and Cost calculations
Chapter 6 – Carbon footprint assessment
Chapter 7 – Design model
Chapter 8 – Examples