SYSTEM2C
Engineering for Sea and Shore
Adding Value to Design, Analysis, Operation & EnvironmentsOur Past Projects
Since inception we have been engaged in many projects for different agencies. We offer our services both as inidvidual consultant to the clients and as special consultants in multi-component projects led by larger consulting groups. We bring in the domain expertise in coastal engineering and climate change adaptation and/or team leadership. The projects range from short advisory to multi-million dollar valued consulting. Here is an overview of the different type of projects performed:
| Project type | Locations |
|---|---|
| Concept note preparation for initiating shore management projects | Five locations, Odisha |
| Technical assistance for project preparation | Maharashtra, India; Papua New Guinea |
| Computational modelling of waves and tidal circulation for environmental analysis | Odisha, Singapore |
| Planning & design of sustainable shore protection measures | 8 locations, Karnataka |
| Design modifications and project implementation management | Maharashtra and Karnataka, India |
| Climate Change Risks and Adaptation | Papua New Guinea, Bangladesh, India |
| Project quality assurance, report review and recommendations | Bangladesh, India, Cambodia |
Sea ports, wharfs and jetties are key to a nation's economy. Sea level rise, increases wave intensity and storms have severe impacts on many existing port infrastructures and implications on design of new ones. Increased wave overtopping caused by sea level rise and higher waves have led to structural damages and operational problems at many existing port facilities throughout the world including this one at Manus, Papua New Guinea.
Building on our background and experience, we are increasing our project footprint. We are looking to add more to our portfolio of coastal and offshore infrastructures, climate resilience and environmental processes. We provide quantitave estimation of coastal flood risk due to rising sea level in combination with fluvial discharge exacerbated by increased intensity of precipitation and/or storm surge with associated precipitation.
