Environmental Flows
KNOW HOW H ÎĩÏÎąÎđÏÎĩÎŊÎą ÎīÏÎąÏÏηÏÎđÎŋÏÎŋÎđÎĩÎŊÏÎąÎđ ΞÎÏÏ ÏÏ ÏÎđΚÏÎ― ÏÎŋÏÎ―. ÎĢÏ ÎģΚÎĩΚÏÎđΞÎÎ―Îą ÏÎŋ ÏÏÎŋÏÏÏÎđÎšÏ ÏÎ·Ï ÎĩÏÎąÎđÏÎĩÎŊÎąÏ ÎąÎ―ÎąÎŧιΞÎēÎŽÎ―ÎĩÎđ Ïη ÎīÎđιΞÏÏÏÏÏη ΚιÎđ ÏÎ·Î― ÎĩΚÏÎÎŧÎĩÏη ΞÎŋÎ―ÏÎÎŧÏÎ― ÎģÎđÎą ÎĩÏÎđÎīÏÎŽÏÎĩÎđÏ ÏÎĩ ÏÏ Î―ÎąÏÎĩÎŊÏ ÏÎŋÎÏ ÏÎĩ ÎĩÏÎąÏΞÎŋÎģÎÏ ÎžÎ·ÏÎąÎ―ÎŋÎŧÏÎģÎŋÏ ÎšÎąÎđ ÏÎŋÎŧÎđÏÎđΚÎŋÏ ÎžÎ·ÏÎąÎ―ÎđΚÎŋÏ.
The realistic simulation of environmental flows is a subject of major economic, social, human and scientific interest. In this frame, the companyâs activities are subject to flows as they occur in nature. More specifically, the companyâs personnel undertake the formulation and run of models on the effects of such flows for applications in Mechanical and Civil Engineering.
Representative examples of such flows include
- flows around and within buildings,
- air pollution due to presence of power stations or industries,
- thermal pollution in coastal lines,
- hot water discharge optimization and
- simulation of wind potential over landscapes for selection of optimum location for power-generation wind turbines.