Developed by the , MIKE 21 is a professional software suite used to simulate physical, chemical, or biological processes in coastal and marine areas. It operates primarily on a 2D mesh—either rectangular or flexible —to solve depth-integrated Navier-Stokes equations. Key Modules and Capabilities
Used for sand and mud transport, this module helps predict morphological changes like beach erosion or harbor siltation.
A state-of-the-art model for simulating the growth, decay, and transformation of wind-generated waves and swells in both offshore and coastal areas. dhi mike 21
Elias highlighted the harbor entrance. "I’m using the Flexible Mesh. I need to see the refraction around the new jetty head."
Coastal zones are increasingly vulnerable to erosion and rising sea levels. Engineers use MIKE 21 to simulate long-term shoreline evolution, design beach nourishment schemes, and assess the effectiveness of hard structures like groynes, breakwaters, and seawalls. Port and Harbour Design Developed by the , MIKE 21 is a
The defining feature of modern MIKE 21 is its . Older versions were purely structured. The FM allows:
Elias looked at the screen. The mathematics were elegant, precise, and terrifying. The MIKE 21 grid wasn't just a picture; it was a truth machine. It didn't care about profits or schedules. It only cared about gravity and fluid dynamics. A state-of-the-art model for simulating the growth, decay,
MIKE 21 is not just a single program; it is a modular ecosystem. Users can combine the core hydrodynamic engine with specialized modules to address specific environmental and engineering problems. Hydrodynamics (HD)
Coastal environments, estuaries, and inland waters are dynamic systems driven by complex physical forces. Managing these environments requires precise predictive capabilities to mitigate flood risks, design resilient marine infrastructure, and understand environmental impacts.