Andrea Copping
Andrea Copping
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Methodology for design and economic analysis of marine energy conversion (MEC) technologies
VS Neary, M Lawson, M Previsic, A Copping, KC Hallett, A Labonte, ...
Geographic signatures of North American west coast estuaries
R Emmett, R Llansó, J Newton, R Thom, M Hornberger, C Morgan, ...
Estuaries 23, 765-792, 2000
Powering the blue economy; exploring opportunities for marine renewable energy in maritime markets
A LiVecchi, A Copping, D Jenne, A Gorton, R Preus, G Gill, R Robichaud, ...
US Department of Energy, Office of Energy Efficiency and Renewable Energy …, 2019
Estuarine response to river flow and sea-level rise under future climate change and human development
Z Yang, T Wang, N Voisin, A Copping
Estuarine, Coastal and Shelf Science 156, 19-30, 2015
Environmental effects of tidal energy development
B Polagye, B Van Cleve, A Copping, K Kirkendall
Annex IV 2016 state of the science report: Environmental effects of marine renewable energy development around the world
A Copping, N Sather, L Hanna, J Whiting, G Zydlewski, G Staines, A Gill, ...
Ocean Energy Systems 224, 2016
Modeling tidal stream energy extraction and its effects on transport processes in a tidal channel and bay system using a three-dimensional coastal ocean model
Z Yang, T Wang, AE Copping
Renewable Energy 50, 605-613, 2013
Carbon budget of a marine phytoplankton‐herbivore system with carbon‐14 as a tracer 1
AE Copping, CJ Lorenzen
Limnology and Oceanography 25 (5), 873-882, 1980
Techno-economic feasibility analysis of offshore seaweed farming for bioenergy and biobased products
G Roesijadi, AE Copping, MH Huesemann, J Forster, JR Benemann
Battelle Pacific Northwest Division Report Number PNWD-3931, 1-115, 2008
An international assessment of the environmental effects of marine energy development
A Copping, H Battey, J Brown-Saracino, M Massaua, C Smith
Ocean & coastal management 99, 3-13, 2014
Future vision for autonomous ocean observations
C Whitt, J Pearlman, B Polagye, F Caimi, F Muller-Karger, A Copping, ...
Frontiers in Marine Science 7, 697, 2020
OES-environmental 2020 state of the Science report: Environmental effects of marine renewable energy development around the world. Report for ocean energy systems (OES)
AE Copping, LG Hemery
Pacific Northwest National Lab.(PNNL), Richland, WA (United States), 2020
Sinking rates of organic particles 1
CJ Lorenzen, NA Welschmeyer, AE Copping, M Vernet
Limnology and Oceanography 28 (4), 766-769, 1983
Potential environmental effects of marine renewable energy development—the state of the science
AE Copping, LG Hemery, DM Overhus, L Garavelli, MC Freeman, ...
Journal of Marine Science and Engineering 8 (11), 879, 2020
Particulate organic carbon flux in the subarctic Pacific
CJ Lorenzen, NA Welschmeyer, AE Copping
Deep Sea Research Part A. Oceanographic Research Papers 30 (6), 639-643, 1983
Diel fluctuation in zooplankton grazing rate as determined from the downward vertical flux of pheopigments
NA Welschmeyer, AE Copping, M Vernet, CJ Lorenzen
Marine biology 83, 263-270, 1984
Reference model 5 (rm5): Oscillating surge wave energy converter
YH Yu, DS Jenne, R Thresher, A Copping, S Geerlofs, LA Hanna
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2015
Maritime route delineation using AIS data from the atlantic coast of the US
SA Breithaupt, A Copping, J Tagestad, J Whiting
The Journal of Navigation 70 (2), 379-394, 2017
Environmental risk evaluation system—an approach to ranking risk of ocean energy development on coastal and estuarine environments
A Copping, L Hanna, B Van Cleve, K Blake, RM Anderson
Estuaries and coasts 38, 287-302, 2015
Modeling of in-stream tidal energy development and its potential effects in Tacoma Narrows, Washington, USA
Z Yang, T Wang, A Copping, S Geerlofs
Ocean & coastal management 99, 52-62, 2014
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