MDDP-Cableship/final report/references.bib

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@misc{gartner-digitalization,
author = {Gartner},
title = {Gartner Glossary: Digitalization},
url = {https://www.gartner.com/en/information-technology/glossary/digitalization}
}
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@Misc{planetsolar,
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author = {Jenny Filippetti},
howpublished = {Online},
month = jul,
title = {PlanetSolar: the first solar powered boat around the world},
year = {2012},
groups = {Renewables},
url = {https://www.designboom.com/technology/planetsolar-the-first-solar-powered-boat-around-the-world},
urldate = {2020-12-16},
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}
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@Misc{Radar,
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author = {Shilavadra Bhattacharjee},
howpublished = {Online},
month = apr,
title = {Marine Radars and Their Use in the Shipping Industry},
year = {2020},
groups = {Navigation},
url = {https://www.marineinsight.com/marine-navigation/marine-radars-and-their-use-in-the-shipping-industry},
urldate = {2020-12-15},
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}
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@Book{sonar-slam,
author = {David Ribas and Pere Ridao and Jos{\'e} Neira},
publisher = {Springer-Verlag Berlin Heidelberg},
title = {Underwater SLAM for Structured Environments Using an Imaging Sonar},
year = {2010},
edition = {1},
isbn = {978-3-642-14039-6},
month = jan,
doi = {10.1007/978-3-642-14040-2},
groups = {Navigation},
issn = {1610-7438},
urldate = {2020-12-15},
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}
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@Misc{maritime-autonomy.vs.autpilot,
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author = {{Sea Machines}},
howpublished = {Online},
month = jan,
title = {Marine Autonomy vs. Autopilot: Know the Differences},
year = {2020},
groups = {Navigation},
url = {https://www.maritime-executive.com/features/marine-autonomy-vs-autopilot-know-the-differences-1},
urldate = {2020-12-15},
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}
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@Article{unmanned-slam,
author = {Prof R Sutton and Dr S Sharma and Dr T Xao},
journal = {Journal of Marine Engineering \& Technology},
title = {Adaptive navigation systems for an unmanned surface vehicle},
year = {2011},
number = {3},
pages = {3--20},
volume = {10},
doi = {10.1080/20464177.2011.11020248},
eprint = {https://doi.org/10.1080/20464177.2011.11020248},
groups = {Navigation},
publisher = {Taylor \& Francis},
url = {https://doi.org/10.1080/20464177.2011.11020248},
urldate = {2020-12-15},
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}
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@Misc{dyn-pos,
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author = {{Nautical Institute}},
howpublished = {Online},
title = {Dynamic Positioning},
groups = {Navigation},
url = {https://www.nautinst.org/resource-library/technical-library/dynamic-positioning.html},
urldate = {2020-12-15},
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}
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@Misc{dnv-dp,
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author = {{DNV GL}},
howpublished = {Online},
month = jul,
title = {Dynamic positioning vessel design philosophy guidelines},
year = {2015},
groups = {Navigation},
url = {https://rules.dnvgl.com/docs/pdf/DNVGL/RP/2015-07/DNVGL-RP-E306.pdf},
urldate = {2020-12-15},
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}
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@Misc{offshore-dp,
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author = {{Offshore Engineering}},
howpublished = {Online},
title = {Dynamic Positioning Classes - Redundancy Levels},
groups = {Navigation},
url = {https://www.offshoreengineering.com/education/dynamic-positioning-dp/dnv-dp-classes-redundancy},
urldate = {2020-12-15},
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}
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@Misc{icom-radio,
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author = {{ICOM}},
howpublished = {Online},
title = {A Guide to Marine Radio},
groups = {Communications},
url = {https://icomuk.co.uk/A-Guide-to-Marine-Radio/3995/169},
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}
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@Misc{yachtcom-vhf,
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author = {YachtCom},
howpublished = {Online},
title = {Marine VHF Radio},
groups = {Communications},
url = {http://www.yachtcom.co.uk/comms/vhf},
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}
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@Misc{yachtcom-requirements,
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author = {YachtCom},
howpublished = {Online},
title = {Marine Radio Legal Requirements},
groups = {Communications},
url = {http://www.yachtcom.co.uk/comms/home2020.html},
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}
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@Misc{marininsight-ais,
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author = {Shilavadra Bhattacharjee},
howpublished = {Online},
month = nov,
title = {Automatic Identification System (AIS): Integrating and Identifying Marine Communication Channels},
year = {2019},
groups = {Communications, Navigation},
url = {https://www.marineinsight.com/marine-navigation/automatic-identification-system-ais-integrating-and-identifying-marine-communication-channels},
urldate = {2020-12-15},
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}
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@Article{digisat,
author = {Digisat},
title = {Maritime Internet Service},
groups = {Communications},
url = {https://www.digisat.org/maritime-satellite-internet},
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}
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@Misc{deccan-repair,
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author = {Francis D'Sa},
howpublished = {Online},
month = dec,
title = {How undersea fibre-optic cables are repaired},
year = {2016},
groups = {Operations},
url = {https://www.deccanchronicle.com/technology/in-other-news/161216/how-undersea-fibre-optic-cables-are-repaired.html},
urldate = {2020-12-15},
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}
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@Misc{subcom-anim,
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author = {Subcom},
howpublished = {Youtube},
month = jan,
title = {Repair Animation - Undersea Fiber Optic Cable System},
year = {2019},
groups = {Operations},
url = {https://www.youtube.com/watch?v=r3tPI0qbLaE},
urldate = {2020-12-16},
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}
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@Misc{kis-orca,
author = {KIS-ORCA},
title = {Maintenance / Repair Operations},
groups = {Operations},
keywords = {rank1},
ranking = {rank1},
url = {https://kis-orca.eu/subsea-cables/maintenance-repair-operations},
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}
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@Misc{schmidt-subastian,
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author = {{Schmidt Ocean Institute}},
howpublished = {Online},
title = {4500 m Remotely Operated Vehicle (ROV SuBastian)},
groups = {ROV},
url = {https://schmidtocean.org/technology/robotic-platforms/4500-m-remotely-operated-vehicle-rov},
urldate = {2020-12-16},
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}
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@Proceedings{suboptic-grapnel,
title = {Advances in Deepwater Cable Maintenance Through New Grapnel Technology},
year = {2010},
organization = {SubOptic},
author = {Andrew Thomas and Nigel Weaver},
groups = {Operations},
keywords = {rank1},
ranking = {rank1},
url = {https://www.suboptic.org/wp-content/uploads/2014/10/273_Poster_MN_08.pdf},
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}
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@Misc{rov-manual,
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author = {{Marine Technology Society ROV Committe}},
howpublished = {Online},
title = {Operational Effectiveness of Unmanned Underwater Systems},
groups = {ROV},
url = {https://rov.org/wp-content/uploads/2020/06/manual.pdf},
urldate = {2020-12-16},
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}
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@Misc{noaa-depth,
author = {NOAA},
month = aug,
title = {ETOPO1 1 Arc-Minute Global Relief Model},
year = {2008},
comment = {water depth data},
url = {https://data.nodc.noaa.gov/cgi-bin/iso?id=gov.noaa.ngdc.mgg.dem:316},
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}
@misc{noaa-depth-google,
author = {NOAA},
howpublished = {Google},
month = aug,
title = {Google Earth - ETOPO1 1 Arc-Minute Global Relief Model},
url = {https://earth.google.com/web/@-1.09506143,142.69180778,-2789.96992561a,18002923.90380377d,35y,0h,0t,0r/data=Ci4SLBIgYjczNzM1Y2E0Y2FiMTFlODhlMTU3MTM3ODRlMDYzMjMiCGxheWVyc18w},
year = {2008}
}
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@Misc{first-solar,
author = {Jeff Butler},
howpublished = {Plugboats},
month = may,
title = {TBThursday 1975: The world{\rq}s 1st Solarboat},
year = {2019},
groups = {Renewables},
url = {https://plugboats.com/tbthursday-1975-the-worlds-1st-solarboat},
urldate = {2020-12-16},
}
@InProceedings{cut-and-hold-paper,
author = {Y. {Ejiri} and T. {Mizuguchi} and K. {Oto} and Y. {Yamaguchi}},
booktitle = {OCEANS 91 Proceedings},
title = {Newly Developed Cut And Hold Grapnel},
year = {1991},
month = oct,
pages = {290-295},
volume = {1},
doi = {10.1109/OCEANS.1991.613945},
groups = {Operations},
url = {https://ieeexplore.ieee.org/document/613945},
urldate = {2020-12-16},
}
@Misc{cut-and-hold-eta-product,
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author = {ETA},
howpublished = {Online},
title = {Cut & Hold Grapnel},
groups = {Operations},
url = {https://www.eta-ltd.com/cut-and-hold-grapnel.html},
urldate = {2020-12-15},
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}
@Misc{rov-hector-7-datasheet,
author = {{SIMEC Technologies}},
howpublished = {Online},
month = nov,
title = {Hector ROVs},
year = {2014},
groups = {ROV},
url = {http://www.simec-technologies.com/upload/galerie/fiche-hector-2016-50770.pdf},
urldate = {2020-12-16},
}
@Misc{auv-hugin-superior-datasheet,
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author = {{Kongsberg Maritime}},
howpublished = {Online},
month = dec,
title = {HUGIN Superior},
year = {2018},
groups = {AUV},
url = {https://www.kongsberg.com/globalassets/maritime/km-products/product-documents/hugin-superior.pdf},
urldate = {2020-12-16},
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}
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@Misc{smd-qtrencher-600-datasheet,
author = {SMD},
howpublished = {Online},
month = jan,
title = {QTRENCHER 600},
year = {2017},
groups = {ROV},
url = {https://www.smd.co.uk/wp-content/uploads/2017/01/QT600.pdf_0.pdf},
urldate = {2020-12-16},
}
@Misc{global-marine-atlas-data-sheet,
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author = {{Global Marine}},
howpublished = {Online},
month = dec,
title = {Atlas Series},
year = {2019},
groups = {ROV},
url = {https://globalmarine.co.uk/wp-content/uploads/2019/12/atlantisrovdatasheet.pdf},
urldate = {2020-12-16},
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}
@Misc{ultra-map-cable-damage-causes,
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author = {Ultramap},
howpublished = {Online},
month = mar,
title = {The Biggest Threat to Subsea Cables},
year = {2020},
groups = {Operations},
url = {https://ultra-map.org/the-biggest-threat-to-subsea-cables/},
urldate = {2020-12-16},
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}
@Misc{glboal-marine-st200-datasheet,
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author = {{Global Marine}},
howpublished = {Online},
month = dec,
title = {ST200 Series},
year = {2019},
groups = {ROV},
url = {https://globalmarine.co.uk/wp-content/uploads/2019/12/st200seriesdatasheet.pdf},
urldate = {2020-12-16},
}
@Misc{battery-uni-chemistry-types,
author = {{Battery University}},
howpublished = {Online},
month = mar,
title = {What's the Best Battery?},
year = {2017},
groups = {Battery},
url = {https://batteryuniversity.com/learn/archive/whats_the_best_battery},
urldate = {2020-12-19},
}
@Article{lawsone-high-voltage-flow-battery,
author = {Pengfei Hu and Hao Lan and Xiao Wang and Yun Yang and Xiaoyu Liu and Hua Wang and Lin Guo},
journal = {Energy Storage Materials},
title = {Renewable-lawsone-based sustainable and high-voltage aqueous flow battery},
year = {2019},
issn = {2405-8297},
pages = {62 - 68},
volume = {19},
abstract = {Recently, redox-flow batteries (RFBs) are drawing intensive attention due to their advantages of peak shaving, grid flexibility and long life time. All-vanadium RFBs are most widely employed, but the high cost and toxicity hinder their large-scale applications. As potential substitutes, development of organic-based aqueous RFBs is impeded by a lack of electroactive pairs with combination of high cell voltage and sufficient cycle stability. In this work, a novel biomolecule-based aqueous RFB with high performance was successfully fabricated. Lawsone, a renewable biomolecule derived from natural henna, was developed as a stable anolyte. By paring with 4-HO-TEMPO, the as-assembled RFB exhibits a high operating voltage above 1.30V, which is among the highest records. Meanwhile, the capacity retention rate reaches 99.992% per cycle. This work highlights the rational utilization of redox-active biomolecule to construct sustainable, low-cost and high-performance aqueous RFBs.},
doi = {https://doi.org/10.1016/j.ensm.2018.10.017},
groups = {Battery},
keywords = {Biomolecule, Renewability, Flow battery, Energy storage, Sustainability},
url = {http://www.sciencedirect.com/science/article/pii/S240582971830895X},
urldate = {2020-12-20},
}
@Misc{workingmouse-digitalisation,
author = {David Burkett},
howpublished = {Online},
month = dec,
title = {Digitisation and Digitalisation: What Means What?},
year = {2017},
url = {https://workingmouse.com.au/innovation/digitisation-digitalisation-digital-transformation},
urldate = {2020-12-20},
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}
@Misc{strathclyde-fuel-cell-efficiency,
author = {{Green Box Systems Group}},
howpublished = {Online},
month = apr,
title = {Fuel Cell Construction and Performance Characterisation},
year = {2000},
groups = {Battery},
organization = {University of Strathclyde},
url = {http://www.esru.strath.ac.uk/EandE/Web_sites/99-00/bio_fuel_cells/groupproject/library/constructionefficiency/text.htm},
urldate = {2020-12-21},
}
@Misc{elec-a2z-fuel-cell-iv,
author = {Ahmed Faizan},
howpublished = {Online},
title = {Fuel Cell: Characteristics Curve & Losses},
year = {2018},
groups = {Battery},
url = {https://electricala2z.com/renewable-energy/fuel-cell-characteristics-curve-losses/},
urldate = {2020-12-21},
}
@TechReport{circular-energy-li-lca,
author = {Hans Eric Melin},
institution = {Circular Energy Storage},
title = {Analysis of the climate impact of lithium-ion batteries and how to measure it},
year = {2019},
type = {resreport},
groups = {Battery},
url = {https://www.transportenvironment.org/sites/te/files/publications/2019_11_Analysis_CO2_footprint_lithium-ion_batteries.pdf},
urldate = {2020-12-21},
}
@Article{argonne-li-ion-lca,
author = {Dai, Qiang and Kelly, Jarod C. and Gaines, Linda and Wang, Michael},
journal = {Batteries},
title = {Life Cycle Analysis of Lithium-Ion Batteries for Automotive Applications},
year = {2019},
issn = {2313-0105},
month = jun,
number = {2},
volume = {5},
abstract = {In light of the increasing penetration of electric vehicles (EVs) in the global vehicle market, understanding the environmental impacts of lithium-ion batteries (LIBs) that characterize the EVs is key to sustainable EV deployment. This study analyzes the cradle-to-gate total energy use, greenhouse gas emissions, SOx, NOx, PM10 emissions, and water consumption associated with current industrial production of lithium nickel manganese cobalt oxide (NMC) batteries, with the battery life cycle analysis (LCA) module in the Greenhouse Gases, Regulated Emissions, and Energy Use in Transportation (GREET) model, which was recently updated with primary data collected from large-scale commercial battery material producers and automotive LIB manufacturers. The results show that active cathode material, aluminum, and energy use for cell production are the major contributors to the energy and environmental impacts of NMC batteries. However, this study also notes that the impacts could change significantly, depending on where in the world the battery is produced, and where the materials are sourced. In an effort to harmonize existing LCAs of automotive LIBs and guide future research, this study also lays out differences in life cycle inventories (LCIs) for key battery materials among existing LIB LCA studies, and identifies knowledge gaps.},
article-number = {48},
doi = {10.3390/batteries5020048},
groups = {Battery},
url = {https://www.mdpi.com/2313-0105/5/2/48},
urldate = {2020-12-22},
}
@Article{lithium-lca,
author = {Matthias Thomitzek and Felipe Cerdas and Sebastian Thiede and Christoph Herrmann},
journal = {Procedia CIRP},
title = {Cradle-to-Gate Analysis of the Embodied Energy in Lithium Ion Batteries},
year = {2019},
issn = {2212-8271},
note = {26th CIRP Conference on Life Cycle Engineering (LCE) Purdue University, West Lafayette, IN, USA May 7-9, 2019},
pages = {304 - 309},
volume = {80},
abstract = {Battery technology is increasingly seen as an integral element for future energy and transportation systems. Current developments in industry show an increasing number and size of battery producing factories, thus leading to an immense energy demand not only during the production of battery cells but also raw material extraction. Determining the embodied energy of battery cells allows a comparison with alternative energy systems and assessing the overall energy demand that can contribute to define measures for the improvement of its environmental footprint. The present work provides an analysis of the production of battery cells regarding their embodied energy. In order to quantify the embodied energy, a material and energy flow analysis (MEFA) was adapted towards battery production. The methodology focuses on the manufacturing processes and considers indirect and direct energy consumers, different machine states and existing yield losses along the value chain. The approach was applied to the battery manufacturing in the Battery LabFactory Braunschweig (BLB).},
doi = {https://doi.org/10.1016/j.procir.2019.01.099},
groups = {Battery},
keywords = {Modelling, Energy, Sustainable development},
url = {http://www.sciencedirect.com/science/article/pii/S2212827119301015},
urldate = {2020-12-22},
}
@Misc{wired-lithium,
author = {Amit Katwala},
howpublished = {Online},
month = aug,
title = {The spiralling environmental cost of our lithium battery addiction},
year = {2018},
groups = {Battery},
organization = {Wired},
url = {https://www.wired.co.uk/article/lithium-batteries-environment-impact},
urldate = {2020-12-22},
}
@Misc{resourceworld-54-lithium,
author = {Ellsworth Dickson},
howpublished = {Online},
title = {Lithium Triangle},
year = {2017},
groups = {Battery},
organization = {Resource World},
url = {https://resourceworld.com/lithium-triangle/},
urldate = {2020-12-22},
}
@Misc{ethical-consumer-conflict-materials,
author = {Heather Webb},
howpublished = {Online},
month = apr,
title = {Conflict Minerals},
year = {2018},
groups = {Battery},
url = {https://www.ethicalconsumer.org/technology/conflict-minerals},
urldate = {2020-12-22},
}
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@Misc{batt-uni-discharge-temp,
author = {{Battery University}},
howpublished = {Online},
month = mar,
title = {Discharging at High and Low Temperatures},
year = {2017},
groups = {Battery},
url = {https://batteryuniversity.com/learn/article/discharging_at_high_and_low_temperatures},
urldate = {2020-12-23},
}
@Misc{bat-uni-prolong-liion,
author = {{Battery University}},
howpublished = {Online},
month = mar,
title = {How to Prolong Lithium-based Batteries},
year = {2017},
groups = {Battery},
url = {https://batteryuniversity.com/learn/article/how_to_prolong_lithium_based_batteries},
urldate = {2020-12-23},
}
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