It didn’t take long to say yes:
A brief loss of sanity and my passion for a sustainable future led me to back to graduate school this year. Shortly after our first semester, an opportunity came up to engage in a capstone project to design a solar photovoltaic (PV) system for a not-for-profit youth home for abused children in Puerto Rico. The mission of Hogar Albergue para Niños Jesús de Nazaret is to provide shelter, food, transportation, health care, education, recreation, social and psychological services to children who are victims of abuse; currently hosting 14 children. In late January of 2018, myself and two other graduate students in the Sustainable Systems Engineering program at UW-Madison said “yes” to this project and began the design process. Recently, UW Madison Engineers Without Borders (EWB) student group and another Affiliated Engineers employee, Alberto Cordero from the EWB professional group have joined in the effort.
A little background:
According to the Energy Information Administration (EIA) in 2017, 47% of the island’s energy was generated from diesel fuel, 34% from Natural Gas, 17% from coal and the remaining 2% from renewable energy sources. Coupled with the facts that the residents pay one of the highest cost per kilowatt hour of any state and power outages to remain a constant threat, solar remains an attractive option for many of our 3.5 million fellow citizens in Puerto Rico.
What might be lost in the recent news is that much of the water delivery system is directly tied to the electrical system. When there’s no power there’s no air conditioning, there are no lights and (most importantly) there’s no water. Which makes this project, even more, pressing for these eleven kids and 24 hr a day rotating staff.
The goal is to not only help these children but to provide a model for a viable solar installation project that can be replicated by other non-profit organizations or charities. This project is expected to significantly reduce their $1000 per month energy bill, provide consistent power to for fresh water, and a few other critical loads during future outages. What makes this challenging is that the system has to be robust enough to survive the next hurricane that will invariably come. We think it’s possible to design and implement on-structure and off-structure (think solar over parking) solutions, that are robust and can be replicated over and over.
There’s still much to do on the design, and we’ve just begun fundraising. We plan on having the design finalized in May 2018 and depending on how much money we raise, an installation in Fall 2018. For those that would like to follow along with our progress, we have a blog run by Professor James Tinjum (UW Madison). #solarparaninos
About the Author: Dan Williams
Mr. Williams has over 16 years of relevant experience in the electrical design field, conducting design-bid-build and engineered projects for a diverse range of commercial and industrial customers. Projects have included medium and low voltage distribution, outside plant fiber, interior power, lighting, exterior lighting, fire alarm, access control, data, video sound, and solar for a wide variety of building types. By virtue of his long experience as a project manager and contractor, Mr. Williams is very familiar with the processes and products involved in new construction and renovation projects, including codes and regulations related to building design and construction.
Software competencies: AutoCAD, VISUAL lighting design software, SKM, ETAP, Navisworks, and Revit.
Contact Dan Williams