Engineered canals and waterfront developments as a means to revitalize aging riverfront and coastal areas, dominated until the mid-thirties by industrial buildings and warehouses, have been at the forefront of many American and European cities. Urban revitalization is accomplished after prolonged public participation and has succeeded to transform abandoned areas to healthy public spaces, renovating old warehouses and industrial buildings to apartments with water views, and keeping alive the historical memory of a city. In contrast, in the United Arab Emirates (UAE), most of these waterfront developments, such as Al-Qana, a recent project in Abu Dhabi promote forms of modern, spectacular architecture that project a sense of departure from tradition, local culture and architecture. This is also visible in the area around the Dubai canal, which has opted for a modern development on its banks, replacing parts of an existing open park. A project that diverges from such an approach is the two-decades old waterfront project in the city of Sharjah, UAE. Al-Qasba in Sharjah aimed for a more balanced approach, intertwining new architectural forms with hybridized Islamic ornaments. The current article analyzes these three UAE waterfront development projects, focusing on the one in Abu Dhabi. In order to assess the water quality in these engineered canals on the long term we created simulation waterflow models using 2D Finite Element Surface Water Modelling System (FESWMS). Our hydrodynamic modeling results indicate that water velocities in some canals was better than others. Furthermore, on the long-term Al-Qana may require mechanical means in order to maintain healthy waterflow conditions.