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EFRI-SEED: Design for Autonomous Net-Zero Water Buildings

$2,162,375FY2010ENGNSF

University Of Miami, Coral Gables FL

Investigators

Abstract

The objective of this EFRI-SEED project is to develop principles for the design of net-zero water buildings, off the water grid. These principles represent a paradigm shift from centralized reduction of oxygen demand, to energy-minimal conveyance and permanent destruction of pharmaceuticals, responsive to technological evolution. Three knowledge barriers are addressed: sustainable treatment system scaling and design; sociocultural and architectural acceptance; and real-time risk assessment. Concepts for system scaling will mimic energy minimal allometric scaling relationships in biological circulatory systems. New energy-minimal electrocatalytic treatment for effective destruction of pharmaceuticals will be advanced. Energy-intensive reverse osmosis (RO) treatment will be avoided through cistern drinking and make-up water, low-flow adaptation of new cloth filtration technology, and metallic iron-mediated filtration. To surmount acceptance barriers, behavioral simulations, interviews, and focus groups will first identify individual and group barriers to adoption and then test approaches for improving sociocultural acceptability. Design components including cisterns, residuals storage, annual maintenance, and natural water releases will be considered within the theoretical framework of New Urbanist architecture. Methods of evidence fusion will be developed for machine-learned assessment of in-vitro toxicity from fluorescence spectra, to advance real-time risk monitoring and to ensure system safety. System design concepts will directly address the energetics of water and wastewater conveyance, representing 15% of U.S. electric power generation, and leverage emerging capability for automated treatment, monitoring, and decentralized operation and maintenance. De facto reuse of surface water consisting largely of treated wastewater would be replaced with explicitly engineered control. Water rationing, and treatment of hardness, arsenic, and boron, and other geologic impurities, would be largely obviated. Treatment would be designed to routinely, permanently destroy pharmaceuticals, addressing widespread biotic feminization. Benefits will propagate through the engagement of a new generation in their future, immersed by living in a dedicated, cross-disciplinary, undergraduate ~20-bed retrofitted dorm unit with design input by students. Well-represented Caribbean and Latin student populations will continue to be involved along with participating agencies and industry partners, for immersion in terms of research, industrial partnerships, public tours, and 1-2 high school student projects (MAST Academy). A Capstone Net-Zero Water Workshop will include regulators, consulting firms, students, and faculty. The FY 2010 EFRI-SEED Topic that supports this project was sponsored by the US National Science Foundation (NSF) Directorates for Engineering (ENG), Mathematical and Physical Sciences (MPS) and Social, Behavioral and Economic Sciences (SBE), and Computer & Information Science and Engineering in collaboration with the US Department of Energy (DOE) and the US Environmental Protection Agency (EPA).

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