Your search keyword '"Andy Walker"' showing total 9 results

1. Performance Index Assessment for the PV Fleet Performance Data Initiative

Author

Jal Desai, Kevin Anderson, Chris Deline, Robert White, Bill Marion, Dirk Jordan, Matt Muller, Andy Walker, and Kirsten Perry

Subjects

Downtime, Energy loss, Meteorology, System capacity, Photovoltaic system, Environmental science, Snow, Performance index

Abstract

We report on 250 PV systems throughout the United States, comprising 157 MWdc of system capacity and more than 10,000 monthly performance index (PI) values. Loss factors were isolated including first-year start-up issues, snowfall, soiling and inverter downtime. Inverter availability was found to contribute significant system energy loss during the first six months of operation, with an average of 8% loss occurring during this period, and 2.3% on average thereafter. Other start-up issues beyond inverter downtime, such as partial string outage, contributed additional underperformance in the first year of operation across the fleet. Winter performance was also found to be below summer performance on average, likely due to snowfall. A relationship was found between monthly snowfall accumulation in centimeters and monthly under-performance, indicating a 6%-40% loss in months with measured snowfall, depending on climate. After correcting for availability, snow and startup loss, over 90% of systems were performing within 10% of monthly expectation based on satellite resource data and PVWatts production estimates.

Published

2021

2. A New Methodology to Assess Building Integrated Roof Top Photovoltaic Installations at City Scales: The Tropical Coastal City Case

Author

Jorge E. Gonzalez, Rabindra Pokhrel, and Andy Walker

Subjects

010504 meteorology & atmospheric sciences, business.industry, 020209 energy, Photovoltaic system, 02 engineering and technology, Solar energy, 01 natural sciences, Civil engineering, Air conditioning, 0202 electrical engineering, electronic engineering, information engineering, General Earth and Planetary Sciences, Environmental science, business, Roof, 0105 earth and related environmental sciences, General Environmental Science

Abstract

As a consequence of the warm and humid climate of tropical coastal regions, there is high energy demand year-round due to air conditioning to maintain indoor comfort levels. Past and current practices are focused on mitigating peak cooling demands by improving heat balances by using efficient building envelope technologies, passive systems, and demand side management strategies. In this study, we explore city-scale solar photovoltaic (PV) planning integrating information on climate, building parameters and energy models, and electrical system performance, with added benefits for the tropical coastal city of San Juan, Puerto Rico. Energy balance on normal roof, flush-mounted PV roof, and tilted PV roof are used to determine PV power generation, air, and roof surface temperatures. To scale up the application to the whole city, we use the urbanized version of the Weather Research and Forecast (WRF) model with the building effect parameterization (BEP) and the building energy model (BEM). The city topology is represented by the World Urban Database Access Portal Tool (WUDAPT), local climate zones (LCZs) for urban landscapes. The modeled peak roof temperature is maximum for normal roof conditions and minimum when inclined PV is installed on a roof. These trends are followed by the building air conditioning (AC) demand from urbanized WRF, maximum for normal roof and minimum for inclined roof-mounted PV. The net result is a reduced daytime Urban Heat Island (UHI) for horizontal and inclined PV roof and increased nighttime UHI for the horizontal PV roof as compared with the normal roof. The ratio between coincident AC demand and PV production for the entire metropolitan region is further analyzed reaching 20% for compact low rise and open low rise buildings due to adequate roof area but reaches almost 100% for compact high rise and compact midrise buildings class, respectively.

Published

2019

3. Solar Energy Systems

Author

R.S. Means and Andy Walker

Subjects

Photovoltaics, business.industry, Environmental science, Economic analysis, Solar water heating, Passive solar building design, business, Solar energy, Engineering physics

Published

2014

4. Solar Water Heating

Author

Andy Walker

Subjects

Heat exchanger, Environmental engineering, Environmental science, Solar water heating

Published

2013

5. Photovoltaics (PV, Solar Electricity)

Author

Andy Walker

Subjects

Photovoltaic thermal hybrid solar collector, Solar air conditioning, Photovoltaics, business.industry, Photovoltaic system, Grid-connected photovoltaic power system, Environmental science, Solar shingle, business, Solar energy, Engineering physics, Grid parity

Published

2013

6. Solar Ventilation Air Preheating

Author

Andy Walker

Subjects

Photovoltaic thermal hybrid solar collector, Solar air conditioning, law, Nuclear engineering, Ventilation (architecture), Heat transfer, Environmental science, Passive solar building design, Thermosiphon, Atmospheric sciences, law.invention

Published

2013

7. The Solar Energy Resource

Author

Andy Walker

Subjects

Photovoltaic thermal hybrid solar collector, Resource (biology), Photovoltaics, business.industry, Solar intensity, Photovoltaic system, Environmental science, Nuclear fusion, business, Solar energy, Engineering physics

Published

2013

8. Delivering Solar Energy Projects

Author

Andy Walker

Subjects

Energy conservation, Architectural engineering, Zero-energy building, Energy development, Solar air conditioning, business.industry, Photovoltaic system, Environmental science, Solar energy, business, Grid parity, Renewable energy

Published

2013

9. Dr. Leapʼs Column a Morale Booster

Author

Andy Walker

Subjects

Booster (rocketry), Chromatography, Environmental science, Column (database)

Published

2003