3 Apr 2024

Deployable Resilient Installation Water Purification and Treatment System (DRIPS): Geoenabled Water Production and Disinfection Systems for Installations

Abstract: The Deployable Resilient Installation water Purification and treatment System (DRIPS) was delivered to aid an Organic Industrial Base in increasing their Installation Status Report–Mission Capacity (ISR-MC) score from black to green as part of a Course of Action (COA) within their Installation Energy and Water Plan (IEWP). DRIPS was also intended to help them be better prepared for the future in meeting their water and energy requirement goals for sustainment of critical missions. The IEWP ISR-MC requirements were met upon implementation of this project. Overall, the purpose of the DRIPS is to be a critical asset in disaster response and military operations, providing a reliable and effective means of producing potable water and disinfection in challenging and unpredictable environments. Its adaptability, mobility, and comprehensive water treatment capabilities make it an invaluable resource for addressing water-related emergencies and water disruptions and for sustaining critical missions. It also addresses a point of need by improving the ability to meet demands, reducing convoy requirements and the logistical footprint, facilitating the endurance of expeditionary forces, and ensuring the well-being of affected installations during times of disaster response, training operations, normal water disruptions, and emergency preparation.

9 Sep 2021

Mat Sinking Unit Supply Study: Mississippi River Revetment

Abstract: The Mississippi Valley Division (MVD) has maintained the Mississippi River banks for over 80 years. The Mat Sinking Unit (MSU), built in 1946, was considered state-of-the-art at the time. This system is still in operation today and has placed over 1,000 miles of Articulated Concrete Mats along the Mississippi River from Head of Passes, LA, to Cairo, IL. A new MSU has been designed and is expected to be fully mission capable and operational by the 2023 season, which is expected to increase the productivity from 2,000 squares/day up to 8,000 squares/day with double shifts and optimal conditions. This MSU supply study identifies and optimizes the supply chain logistics for increased production rates from the mat fields to the MSU. The production rates investigated for this effort are 2,000 squares/day, 4,000 squares/day, and 6,000 squares/day. RiskyProject® software, which utilizes a Monte Carlo method to determine a range of durations, manpower, and supplies based on logical sequencing is used for this study. The study identifies several potential supply and demand issues with the increased daily production rates. Distance to casting fields, number of barges, and square availability are the major issues to supply increased placement rates identified by this study.