Spring 2011

Spring 2011

This wiki page is mainly for internal PSS communication. For more information about the Structure team, go to the Structure Team page.

Introduction to the Team

The Structure team is new to the AguaClara project. Professor Weber-Shirk created the team this semester to provide structural analysis for the growing number of Aguaclara water treatment plants. Currently, the automated design tool does not provide structural designs for the tanks. Our ultimate goal is to automate the design of the tanks including column spacing, column sizing, and rebar use when given the required tank height, width, and length.

The team focused on organizing data and resources in the form of e-mail correspondences and meetings with Cornell University professors to decide on the first problem to address. Following the meetings, the team decided to analyze the structural capabilities for the columns and walls using the specifications from the Alauca plant. We have been working in conjunction with Dan Smith and Santiago Garcia to obtain relevant information about the AguaClara plants.

Abstract

Our main objective we wished to accomplish this semester was to create a means of automating the design of the columns and walls for the design tool. We began this work by analyzing the structural capabilities of the columns and walls for the Alauca plant.
There are three different load cases that guide the design of the columns and walls of the tank. The first case assumed that the tank walls were supported by the surrounding backfill. The second case assumed no support from this backfill. The third case analyzed the structural importance of the rubble which lies at the base of the sedimentation tank.

For our analysis of the walls, we modeled them as closely spaced columns. The plans for the Alauca plant show vertical rebar that runs through these walls will add flexural support. By modeling the walls as columns we accounted for this vertical rebar. Modeling the walls as a combination of individual columns also allowed us to use the same tools and procedures that we used for the analysis of the columns. We set the moment at initial cracking as our first failure moment. We determined this moment by using the Transformed Moment of Inertia method. We also wanted to know the moment that would render the walls and columns to no longer be structurally intact. This would be the largest moment that these walls and columns could experience before ultimate failure. We believed that this value would be of importance for future analyses which would incorporate earthquake conditions. For this ultimate failure analysis, we used the Column Interaction Diagram. This method plots the area of all axial load and moment cases that a column would be able to support safely. A full report with calculations and conclusions can be found in our Structures Team Final Report Spring 2011 document.

We also explored how changing key variables such as cover depth, rebar size, and strength properties of the materials used affected the moment capacity of the walls and columns.

All the documents used in our analysis this semester are found under the "Documents" section.

Structure Team Challenges

Because the Structures team is a newly formed team, we had a hard time hitting the ground running. A good portion of our time was spent on collecting resources, talking to professors, and figuring out exactly which tasks could viably be completed given our engineering background and time constraints. However, after we narrowed down our goals, we have steadily made progress in our analysis of key structural elements in the Alauca plant and will soon be able to automate an efficient design of tank columns and walls.

The team has definitely been challenged intellectually, given our limited structural engineering experience, as well as organizationally, as this is everyone's first time working with each other. However, we have utilized our resources to acquire the necessary knowledge required to accomplish our tasks. We hope that we have made invaluable progress in the structural analysis of the tanks for the AguaClara plants.

Structures Team Spring 2011 Documents