A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Innovative Approach to Reuse Existing Elements Yields Cost-Effective Dock Upgrade
A nearly 1,500-ft (457-m) dock upgrade and extension was designed and constructed for dry bulk loading at the Municipal River Terminal (MRT) along the Mississippi River in St. Louis, Missouri. The key aspect of the design, which enabled the City of St. Louis to meet its goal of a complete upgrade within budget, was the design-build team's thorough evaluation of the existing South Dock capacity, and the reuse of those structural elements which had substantial remaining capacity.
Innovative Approach to Reuse Existing Elements Yields Cost-Effective Dock Upgrade
A nearly 1,500-ft (457-m) dock upgrade and extension was designed and constructed for dry bulk loading at the Municipal River Terminal (MRT) along the Mississippi River in St. Louis, Missouri. The key aspect of the design, which enabled the City of St. Louis to meet its goal of a complete upgrade within budget, was the design-build team's thorough evaluation of the existing South Dock capacity, and the reuse of those structural elements which had substantial remaining capacity.
Innovative Approach to Reuse Existing Elements Yields Cost-Effective Dock Upgrade
Paparis, B. (author) / Prilutsky, V. (author) / Czernikiewicz, J. (author) / Snow, J. (author) / Dolan, P. (author)
Proceedings of Ports '13: 13th Triennial International Conference ; 2013 ; Seattle, Washington
Ports 2013 ; 979-988
2013-08-12
Conference paper
Electronic Resource
English
Ozone High-Rate Direct Filtration Innovative Design for Cost Effective Expansion and Upgrade
| British Library Conference Proceedings | 1998