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User:RobbieIanMorrison/sandbox/references

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Incomplete

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References

  1. ^ "Linked open data — Special theme" (PDF) (96). Sophia Antipolis Cedex, France: ERCIM News. January 2014. ISSN 0926-4981. Retrieved 2016-11-02. {{cite journal}}: Cite journal requires |journal= (help)

Local

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  • evince ~/synk/pdfs/2016-fragniere-etal-coupling-techno-economic-energy-models-with-behavioral-approaches.pdf &

Complete

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Global energy

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  • Ekins et al (2015) on global energy[1]
  • IEA 2016 world energy outlook[2]
    • evince ~/synk/pdfs/2016-iea-world-energy-outlook-summary.pdf &
  • IRES energy statistics recommendations[3]
    • evince ~/synk/pdfs/2016-un-ires-international-recommendations-for-energy-statistics.pdf &
  • IEA (2016)[2]
    • evince ~/synk/pdfs/2016-iea-key-world-energy-statistics.pdf &

References

  1. ^ Ekins, Paul; Bradshaw, Mike; Watson, Jim, eds. (17 September 2015). Global energy: issues, potentials, and policy implications. Oxford, United Kingdom: Oxford University Press. ISBN 978-0-19-871953-3.
  2. ^ a b World Energy Outlook 2016 — Executive summary (PDF). Paris, France: OECD/IEA. 2016. ISBN 978-926426494-6. Retrieved 2016-11-30. Cite error: The named reference "iea-2016" was defined multiple times with different content (see the help page).
  3. ^ International Recommendations for Energy Statistics (IRES) — ST/ESA/STAT/SER.M/93 (PDF). New York, NY, USA: Statistics Division, Department of Economic and Social Affairs, United Nations. 2016. ISBN 978-92-1-056520-2. Retrieved 2016-12-17. Annotated as final edited version prior to typesetting. Also covers energy-related greenhouse gas emissions accounting.

Citizen participation (for Energiewende article)

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  • Borchert (2015) on citizens participation in the Energiewende[1]
  • Morris (2015) on energy co-ops[2]
  • Mühlenhoff (2010) on value creation[3]

References

  1. ^ Borchert, Lars (10 March 2015). "Citizens' participation in the Energiewende". Clean Energy Wire (CLEW). Berlin, Germany. Retrieved 2016-08-04.
  2. ^ Morris, Craig (24 February 2015). "Few new German energy co-ops in 2014". Energy Transition: The German Energiewende. Berlin, Germany. Retrieved 2016-08-04.
  3. ^ Mühlenhoff, Jörg (December 2010). "Value creation for local communities through renewable energies: results of the study by the Institute for Ecological Economy Research (IÖW)" (PDF). Renews Special (46). Translated by Hill, Phil. Berlin, Germany: German Renewable Energies Agency. ISSN 2190-3581. Retrieved 2016-08-05. See also Institut für ökologische Wirtschaftsforschung.

Germany

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  • Pöyri (2013) on no new coal-fired power stations in Germany[1]
  • Loreck et al (2013) imports of nuclear power did not increase[2]
  • Kemfert et al (2015) on transmission planning[3]
  • Kemfert et al (2016) on transmission planning[4]
  • Climate Action Programme 2020[5]
  • Beveridge and Kern (2013) on the Energiewende background, developments, challenges[6]
  • Third Report of the Enquete Commission (no PDF)[7]
  • Mez and Piening (2002) on phasing-out nuclear power[8]
  • Jacobsson and Lauber (2006) on the politics of energy system transformation[9]
  • supply security and the nuclear phaseout, Huneke et al (2016)[10][11]
  • Morris and Jungjohann (2016) book on the Energiewende[12]
  • Argyropoulos et al (2016) on the impact of recent legislative changes in Germany[13]
    • evince ~/synk/pdfs/2016-argyropoulos-etal-2016-agora-new-energy-sector-laws.pdf &
  • Dieckhoff and Leuschner (2016) on the usefulness and limitations of energy scenarios and energy models within the context of the Energiewende.[14]
    • The first aim of the volume is to make a constructive contribution to the Energiewende. The second aim is to contribute to the current lively philosophical debates about models and scenarios as well as the role of science in democratic societies.
  • Unnerstall (2016) on the Energiewende[15]
    • lots of numbers, apparently very good
  • Egerer et al (2014) on electricity sector data[16]
    • evince ~/synk/pdfs/2014-egerer-etal-electricity-sector-data-for-policy-relevant-modeling.pdf &
  • Milano (2010) on power system scripting[17]
  • Medjroubi et al (2017) on open power grid modeling[18]
    • evince ~/synk/pdfs/2017-medjroubi-etal-open-data-power-grid-modelling-new-approaches.pdf &
  • Hager and Stefes (2016) on the Energiewende[19]
  • Lunz et al (2016) on German energy scenarios[20]
    • evince ~/synk/pdfs/2016-lunz-etal-scenario-based-comparative-assessment-potential-future-electricity-systems-germany-2050.pdf &

References

  1. ^ Outlook for new coal-fired power stations in Germany, the Netherlands and Spain — A report to DECC (PDF). Oxford, UK: Pöyri Management Consulting. April 2013. Retrieved 2016-08-05. DECC is the now disestablished UK Department of Energy and Climate Change.
  2. ^ Loreck, Charlotte; Hermann, Hauke; Matthes, Felix Chr; Emele, Lukas; Rausch, Lothar (31 January 2013). Impacts of Germany's nuclear phase-out on electricity imports and exports — Report commissioned by Greenpeace Germany (PDF). Translated by Henshaw, Jerry; Cook, Vanessa. Berlin, Germany: Öko-Institut. Retrieved 2016-08-09.
  3. ^ Kemfert, Claudia; Kunz, Friedrich; Rosellón, Juan (2016). A welfare analysis of electricity transmission planning in Germany (PDF). Berlin, Germany: German Institute for Economic Research (DIW). ISSN 1619-4535. Retrieved 2016-08-09.
  4. ^ Kemfert, Claudia; Kunz, Friedrich; Rosellón, Juan (2016). "A welfare analysis of electricity transmission planning in Germany". Energy Policy. 94: 446–452. doi:10.1016/j.enpol.2016.04.011.
  5. ^ The German Government’s Climate Action Programme 2020 — Cabinet decision of 3 December 2014 (PDF). Berlin, Germany: Federal Ministry for the Environment, Nature Conservation, Building and Nuclear Safety (BMUB). 3 December 2014. Retrieved 2016-07-29.
  6. ^ Beveridge, Ross; Kern, Kristine (2013). "The Energiewende in Germany: background, developments and future challenges" (PDF). Renewable Energy Law and Policy Review. 4 (1): 3–12. Retrieved 2016-07-22.
  7. ^ German Bundestag, ed. (1991). Protecting the Earth: a status report with recommendations for a new energy policy — Third Report of the Enquete Commission of the 11th German Bundestag, Preventive Measures to Protect the Earth's Atmosphere — Volume II. Bonn, Germany: Deutscher Bundestag. ISBN 978-3-924521-71-4.
  8. ^ Mez, Lutz; Piening, Annette (2002). "Phasing-out nuclear power generation in Germany: policies, actors, issues and non-issues" (PDF). Energy and Environment. 13 (2): 161–181. doi:10.1260/0958305021501155. Retrieved 2016-05-13.
  9. ^ Jacobsson, Staffan; Lauber, Volkmar (2006). "The politics and policy of energy system transformation — explaining the German diffusion of renewable energy technology". Energy Policy. 34 (3): 256–276. doi:10.1016/j.enpol.2004.08.029.
  10. ^ "Supply security is even more stable despite nuclear phaseout — fossil reserve power is replaceable" (PDF) (Press release). Hamburg, Germany: Greenpeace Energy. 5 September 2016. Retrieved 2016-09-08.
  11. ^ Huneke, Fabian; Lizzi, Philipp; Lenck, Thorsten (August 2016). The consequences so far of Germany's nuclear phaseout on the security of energy supply — A brief analysis commissioned by Greenpeace Energy eG in Germany (PDF). Berlin, Germany: Energy Brainpool. Retrieved 2016-09-08.
  12. ^ Morris, Craig; Jungjohann, Arne (2016). Energy democracy: Germany's Energiewende to renewables. Cham, Switzerland: Springer International Publishing. doi:10.1007/978-3-319-31891-2. ISBN 978-3-319-31890-5.
  13. ^ Argyropoulos, Daniel; Godron, Philipp; Graichen, Patrick; Litz, Philipp; Pescia, Dimitri; Podewils, Christoph; Redl, Christian; Ropenus, Stephanie; Rosenkranz, Gerd (November 2016). Energiewende: What do the new laws mean?: Ten questions and answers about EEG 2017, the Electricity Market Act, and the Digitisation Act — 103/07-H-2016/EN (PDF). Berlin, Germany: Agora Energiewende. Retrieved 2016-11-22.
  14. ^ Dieckhoff, Christian; Leuschner, Anna, eds. (November 2016). Die Energiewende und ihre Modelle: Was uns Energieszenarien sagen können – und was nicht [The Energiewende and its models: What energy scenarios can tell us – and what not] (in German). Bielefeld, Germany: transcript Verlag. ISBN 978-3-8376-3171-5.
  15. ^ Unnerstall, Thomas (2016). Faktencheck Energiewende: Konzept, Umsetzung, Kosten — Antworten auf die 10 wichtigsten Fragen [Fact check Energiewende: concept, implementation, cost — Answers to the 10 most important questions] (in German). Berlin and Heidelberg, Germany: Springer-Verlag. doi:10.1007/978-3-662-49777-7. ISBN 978-3-662-49777-7.
  16. ^ Egerer, Jonas; Gerbaulet, Clemens; Ihlenburg, Richard; Kunz, Friedrich; Reinhard, Benjamin; von Hirschhausen, Christian; Weber, Alexander; Weibezahn, Jens (March 2014). Electricity sector data for policy-relevant modeling: data documentation and applications to the German and European electricity markets — Research report 72 (PDF). Berlin, Germany: German Institute for Economic Research (DIW Berlin). ISSN 1861-1532. Retrieved 2017-04-23.
  17. ^ Milano, Federico (2010). Power system modelling and scripting. London, United Kingdom: Springer-Verlag London. doi:10.1007/978-3-642-13668-9. ISBN 978-3-642-13668-9.
  18. ^ Medjroubi, Wided; Müller, Ulf Philipp; Scharf, Malte; Matke, Carsten; Kleinhans, David (November 2017). "Open data in power grid modelling: new approaches towards transparent grid models". Energy Reports. 3: 14–21. doi:10.1016/j.egyr.2016.12.001. ISSN 2352-4847. Retrieved 2017-04-22.  
  19. ^ Hager, Carol; Stefes, Christoph H, eds. (28 October 2016). Germany's energy transition: a comparative perspective. New York, USA: Palgrave Macmillan. doi:10.1057/978-1-137-44288-8. ISBN 978-1-137-44287-1. Also compares related policies in Europe, the USA and China. The editors are from US institutions.
  20. ^ Lunz, Benedikt; Stöcker, Philipp; Eckstein, Sascha; Nebel, Arjuna; Samadi, Sascha; Erlach, Berit; Fischedick, Manfred; Elsner, Peter; Sauer, Dirk Uwe (1 June 2016). "Scenario-based comparative assessment of potential future electricity systems: a new methodological approach using Germany in 2050 as an example". Applied Energy. 171: 555–580. doi:10.1016/j.apenergy.2016.03.087. ISSN 0306-2619.

United Kingdom

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  • Keay (2016) on stuck UK energy policy[1]
  • Trutnevyte et al (2016) on UK modeling[2]
    • covers history of modeling, including the DECC efforts
    • see also DeCarolis et al (2017, section 4) for a summary

References

  1. ^ Keay, Malcolm (2016). "UK energy policy – Stuck in ideological limbo?". Energy Policy. 94: 247–252. doi:10.1016/j.enpol.2016.04.022.
  2. ^ Trutnevyte, Evelina; McDowall, Will; Tomei, Julia; Keppo, Ilkka (March 2016). "Energy scenario choices: insights from a retrospective review of UK energy futures". Renewable and Sustainable Energy Reviews. 55: 326–337. doi:10.1016/j.rser.2015.10.067. ISSN 1364-0321. {{cite journal}}: |access-date= requires |url= (help)

Europe

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  • Heide et al (2011) on reduced storage and balancing needs[1]

References

  1. ^ Heide, Dominik; Greiner, Martin; von Bremen, Lüder; Hoffmann, Clemens (September 2011). "Reduced storage and balancing needs in a fully renewable European power system with excess wind and solar power generation". Renewable Energy. 36 (9): 2515–2523. doi:10.1016/j.renene.2011.02.009. ISSN 0960-1481.

USA

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  • Schuwerk (2017) on abandoned and unremediated mines[1]

References

  1. ^ Schuwerk, Robert (January 2017). Blazing saddles: coal miners are galloping out of bankruptcy; will taxpayers be left behind? (PDF). London, United Kingdom: Carbon Tracker Initiative. Retrieved 2017-02-02.

Merit order effect

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  • Appunn (2015), CLEW factsheet on the merit order effect[3]
  • Appunn (2016) on re-dispatch costs[4]
  • Amelang (2016) on grid stabilization fee[5]
  • Trepper et al (2015) on market splitting and redispatch[6]

References

  1. ^ Sensfuß, Frank; Ragwitz, Mario; Massimo, Genoese (2007). The Merit-order effect: a detailed analysis of the price effect of renewable electricity generation on spot market prices in Germany — Working Paper Sustainability and Innovation No. S 7/2007 (PDF). Karlsruhe, Germany: Fraunhofer Institute for Systems and Innovation Research (Fraunhofer ISI). Retrieved 2016-07-27.
  2. ^ Sensfuß, Frank; Ragwitz, Mario; Massimo, Genoese (August 2008). "The merit-order effect: a detailed analysis of the price effect of renewable electricity generation on spot market prices in Germany". Energy Policy. 36 (8): 3076–3084. doi:10.1016/j.enpol.2008.03.035.
  3. ^ Appunn, Kerstine (23 January 2015). "Setting the power price: the merit order effect". Clean Energy Wire (CLEW). Berlin, Germany. Retrieved 2016-08-10.
  4. ^ Appunn, Kerstine (16 February 2016). "Re-dispatch costs in the German power grid". Berlin, Germany: Clean Energy Wire (CLEW). Retrieved 2016-08-12.
  5. ^ Amelang, Sören (2 November 2016). "Industry grid fee rebates top 1 billion euros, fuel reform debate". Clean Energy Wire (CLEW). Berlin, Germany. Retrieved 2016-11-02.
  6. ^ Trepper, Katrin; Bucksteeg, Michael; Weber, Christoph (December 2015). "Market splitting in Germany – New evidence from a three-stage numerical model of Europe". Energy Policy. 87: 199–215. doi:10.1016/j.enpol.2015.08.016. ISSN 0301-4215.

Energy modeling

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  • Bruckner (2016) on energy system modeling[1]
    • candid paper on interpreting IAMs
  • Strachan (2011) on UK modeling: Energy modelling capacity is a critical underpinning for iterative energy policy making[2]
  • Linked open data[3]
  • Climate Tagger project[4]
  • Tomaschek (2013) thesis on transport sector modeling for South Africa[5]
  • Duplessis et al (2012) on energy services typology.[6]
  • Böhringer and Rutherford (2009) on integrated assessment of energy policies[7]
  • Martinsen (2011) on technological learning[8]
  • Wene (1999) on linking macroeconomic and engineering approaches[9]
  • EMF 32: US GHG and revenue recycling scenarios (reports late-2016)[10]
  • Quelhas et al (2007) on a national US model[11]
    • evince ~/synk/pdfs/2007-quelhas-etal-multiperiod-network-flow-model-us-model-description.pdf &
  • Jebaraj and Iniyan (2006) on modeling methods[12]
  • Strachan and Warren (2011)[13]
    • evince ~/synk/pdfs/2011-strachan-and-warren-incorporating-behavioural-complexity-in-energy-economic-models.pdf &
  • Weidlich and Veit (2008) review of agent-based electricity market models[14]
    • evince ~/synk/pdfs/2008-weidlich-and-veit-critical-survey-agent-based-wholesale-electricity-market.pdf &
  • Mundaca et al (2010) on evaluating energy efficiency policies with energy-economy models[15][16]
    • evince ~/synk/pdfs/2010-mundaca-etal-evaluating-energy-efficiency-policies-with-energy-economy-models-report.pdf &
    • evince ~/synk/pdfs/2010-mundaca-etal-evaluating-energy-efficiency-policies-with-energy-economy-models-paper.pdf &
    • To have the necessary impact on policy, modelling analysis needs to be transparent, encourage verification, validation and replicability as far as possible. As quoted on Pye and Bataille (2016).
  • Giannakidis et al (2015) on energy and climate modeling[17]
    • almost entirely TIMES models
    • quoted often
    • see p7 for limitations of the model (try google books)
  • Wright and Kanudia (2015) on TIMES for air quality and climate in the US[18]
    • evince ~/synk/pdfs/2015-wright-and-kanudia-highly-detailed-times-modeling.pdf &
  • Nahmmacher et al (2016) on reducing time series[19]
  • Bhattacharyya and Timilsina (2010) on a review of energy system models[20]
    • evince ~/synk/pdfs/2010-bhattacharyya-review-energy-system-models.pdf &
  • Henning et al (2006) on modeling district heat systems[21]
  • Henning (1997) on MODEST[22]
  • Simoes et al (2017) on geographical resolution in models[23]
    • evince ~/synk/pdfs/2017-simoes-etal-impact-geographical-disaggregation-wind-pv-large-energy-system-models-austria.pdf &
  • Liao et al (2009) on, among other things, average shadow prices[24]
    • describes concept of an average shadow price for discrete optimization, but may not be widely applicable
  • Dodds and McDowall (2014) on road transport modeling[25]
    • evince ~/synk/pdfs/2014-dodds-and-mcdowall-methodologies-representing-road-transport-sector-energy-system-models.pdf &
  • Daly (2015) on hurdle rates[26]
    • mostly on hurdle rates, including household decisions
    • evince ~/synk/pdfs/2015-daly-behaviour-energy-system-optimisation-models-hurdle-rates.pdf &
  • Daly et al (2015) on model linking[27]
    • evince ~/synk/pdfs/2015-daly-etal-linking-io-and-times-models-for-uk.pdf &
  • Pina et al (2013) on a high-resolution modeling framework[28]
    • dispatch and investment
    • evince ~/synk/pdfs/2013-pina-etal-high-resolution-modeling-framework-planning-high-penetration-renewables.pdf &
  • Trutnevyte et al (2014) on model storylines[29]
    • evince ~/synk/pdfs/2014-trutnevyte-etal-linking-storyline-multiple-models.pdf &
  • DeCarolis et al (2017) on best practice for energy system optimization modeling[30]
    • contains a good section on scenario analysis
    • evince ~/synk/pdfs/2017-decarolis-etal-formalizing-best-practice-for-energy-system-optimization-modelling.pdf &
  • DeCarolis et al (2016) on modeling to generate alternatives[31]
    • evince ~/synk/pdfs/2016-decarolis-etal-modeling-to-generate-alternatives-energy-system-optimization-model.pdf &
  • Gargiulo and Gallachóir (2013) on long-term energy models[32]
  • Krey (2014) on energy/climate scenarios[33]
  • Capellán-Pérez et al (2013) on climate-energy-economic modeling[34]
    • evince ~/synk/pdfs/2013-capellan-perez-etal-review-climate-energy-economic-modeling-approaches.pdf &
  • Hourcade et al (2010) on hybrid modeling[35]
    • good treatment of top-down and bottom-up modeling
    • evince ~/synk/pdfs/2006-hourcade-etal-hybrid-modeling-introduction.pdf &
  • Taliotis et al (2017) on OSeMOSYS and Cyprus[36]

References

  1. ^ Bruckner, Thomas (January 2016). "Decarbonizing the global energy system: an updated summary of the IPCC report on mitigating climate change". Energy Technology. 4 (1): 19–30. doi:10.1002/ente.201500387. ISSN 2194-4296. Retrieved 2016-10-26.
  2. ^ Strachan, Neil (March 2011). "UK energy policy ambition and UK energy modelling — fit for purpose?". Energy Policy. 39 (3): 1037–1040. doi:10.1016/j.enpol.2011.01.015.
  3. ^ "Guides and Tutorials". Linked Data — Connect Distributed Data across the Web. Retrieved 2016-09-27.
  4. ^ Turning data into knowledge (PDF). Vienna, Austria: Renewable Energy and Energy Efficiency Partnership (REEEP). June 2015. Retrieved 2016-09-26.
  5. ^ Tomaschek, Jan (2013). Long-term optimization of the transport sector to address greenhouse gas reduction targets under rapid growth: application of an energy system model for Gauteng province, South Africa — Dissertation (Dr-Ing) (PDF). Stuttgart, Germany: Universität Stuttgart. doi:10.18419/opus-2313. Retrieved 2016-10-11.
  6. ^ Duplessis, Bruno; Adnot, Jérôme; Dupont, Maxime; Racapé, François (June 2012). "An empirical typology of energy services based on a well-developed market: France". Energy Policy. 45: 268–276. doi:10.1016/j.enpol.2012.02.031. ISSN 0301-4215.
  7. ^ Böhringer, Christoph; Rutherford, Thomos F (September 2009). "Integrated assessment of energy policies: decomposing top-down and bottom-up". Journal of Economic Dynamics and Control. 33 (9): 1648–1661. doi:10.1016/j.jedc.2008.12.007. ISSN 0165-1889.
  8. ^ Martinsen, Thomas (June 2011). "Introducing technology learning for energy technologies in a national CGE model through soft links to global and national energy models". Energy Policy. 39 (6): 3327–3336. doi:10.1016/j.enpol.2011.03.025. ISSN 0301-4215.
  9. ^ Wene, C-O (1 September 1996). "Energy-economy analysis: linking the macroeconomic and systems engineering approaches". Energy. 21 (9): 809–824. doi:10.1016/0360-5442(96)00017-5. ISSN 0360-5442.
  10. ^ "EMF 32: US GHG and revenue recycling scenarios". Energy Modeling Forum (EMF). Standford, CA, USA. Retrieved 2016-10-22. The purpose of this modeling exercise is to use energy-economic models to assess emissions, energy and economic outcomes from a plausible range of US policies to reduce greenhouse gases (GHGs). In addition to standard emphasis on the effects of such policies on emissions, energy prices and macroeconomic performance, an economic issue of particular interest will be how fiscal decisions on revenue distribution might also affect these outcomes.
  11. ^ Quelhas, Ana; Gil, Esteban; McCalley, James D; Ryan, Sarah M (May 2007). "A multiperiod generalized network flow model of the US integrated energy system: Part I — Model description" (PDF). IEEE Transactions on Power Systems. 22 (2): 829–836. doi:10.1109/TPWRS.2007.894844. ISSN 0885-8950. Retrieved 2016-10-22.
  12. ^ Jebaraj, S; Iniyan, S (August 2006). "A review of energy models" (PDF). Renewable and Sustainable Energy Reviews. 10 (4): 281–311. doi:10.1016/j.rser.2004.09.004. Retrieved 2013-03-02.
  13. ^ Strachan, Neil; Warren, Peter (2011). Incorporating behavioural complexity in energy-economic models. UCL Energy Institute, University College London. Unreliable: Possible source: MRes Paper for the UKERC Energy and People: Futures, Complexity and Challenges Conference at Oxford University in September 2011
  14. ^ Weidlich, Anke; Veit, Daniel (July 2008). "A critical survey of agent-based wholesale electricity market models". Energy Economics. 30 (4): 1728–1759. doi:10.1016/j.eneco.2008.01.003. ISSN 0140-9883.
  15. ^ Mundaca, Luis; Neij, Lena; Worrell, Ernst; McNeil, Michael A (1 August 2010). Evaluating energy efficiency policies with energy-economy models — Report number LBNL-3862E (PDF). Berkeley, CA, US: Ernest Orlando Lawrence Berkeley National Laboratory. doi:10.1146/annurev-environ-052810-164840. OSTI 1001644. Retrieved 2016-11-15.
  16. ^ Mundaca, Luis; Neij, Lena; Worrell, Ernst; McNeil, Michael A (22 October 2010). "Evaluating energy efficiency policies with energy-economy models". Annual Review of Environment and Resources. 35 (1): 305–344. doi:10.1146/annurev-environ-052810-164840. ISSN 1543-5938.
  17. ^ Giannakidis, George; Labriet, Maryse; Gallachóir, Brian Ó; Tosato, GianCarlot, eds. (2015). Informing energy and climate policies using energy systems models: insights from scenario analysis increasing the evidence base. Cham, Switzerland: Springer International Publishing. doi:10.1007/978-3-319-16540-0. ISBN 978-3-319-16540-0. This book is almost entirely devoted to MARKAL and TIMES.
  18. ^ Wright, Evelyn; Kanudia, Amit (2015). "Chapter: Highly detailed TIMES modeling to analyze interactions between air quality and climate regulations in the United States". In Giannakidis, George; Labriet, Maryse; Gallachóir, Brian Ó; Tosato, GianCarlo (eds.). Informing energy and climate policies using energy systems models: insights from scenario analysis increasing the evidence base. Cham, Switzerland: Springer International Publishing. pp. 223–246. doi:10.1007/978-3-319-16540-0_13. ISBN 978-3-319-16540-0.
  19. ^ Nahmmacher, Paul; Schmid, Eva; Hirth, Lion; Knopf, Brigitte (1 October 2016). "Carpe diem: a novel approach to select representative days for long-term power system modeling". Energy. 112: 430–442. doi:10.1016/j.energy.2016.06.081. ISSN 0360-5442.
  20. ^ Bhattacharyya, Subhes C; Timilsina, Govinda R (23 November 2010). "A review of energy system models" (PDF). International Journal of Energy Sector Management. 4 (4): 494–518. doi:10.1108/17506221011092742. ISSN 1750-6220. Retrieved 2016-12-13.
  21. ^ Henning, Dag; Amiri, Shahnaz; Holmgren, Kristina (1 December 2006). "Modelling and optimisation of electricity, steam and district heating production for a local Swedish utility". European Journal of Operational Research. 175 (2): 1224–1247. doi:10.1016/j.ejor.2005.06.026. ISSN 0377-2217.
  22. ^ Henning, Dag (1 December 1997). "MODEST: an energy-system optimisation model applicable to local utilities and countries". Energy. 22 (12): 1135–1150. doi:10.1016/S0360-5442(97)00052-2. ISSN 0360-5442.
  23. ^ Simoes, Sofia; Zeyringer, Marianne; Mayr, Dieter; Huld, Thomas; Nijs, Wouter; Schmidt, Johannes (May 2017). "Impact of different levels of geographical disaggregation of wind and PV electricity generation in large energy system models: a case study for Austria" (PDF). Renewable Energy. 105: 183–198. doi:10.1016/j.renene.2016.12.020. ISSN 0960-1481. Retrieved 2017-04-25.
  24. ^ Liao, Gwo-Liang; Chen, Yen Hung; Sheu, Shey-Huei (1 June 2009). "Optimal economic production quantity policy for imperfect process with imperfect repair and maintenance". European Journal of Operational Research. 195 (2): 348–357. doi:10.1016/j.ejor.2008.01.004. ISSN 0377-2217.
  25. ^ Dodds, Paul E; McDowall, Will (4 February 2014). "Methodologies for representing the road transport sector in energy system models" (PDF). International Journal of Hydrogen Energy. 39 (5): 2345–2358. doi:10.1016/j.ijhydene.2013.11.021. ISSN 0360-3199. Retrieved 2017-04-25.
  26. ^ Daly, Hannah E (20 April 2015). How we treat behaviour in energy system optimisation models — Presentation (PDF). International BE4 Workshop. London, United Kingdom. Retrieved 2017-04-25.
  27. ^ Daly, Hannah E; Scott, Kate; Strachan, Neil; Barrett, John (8 June 2015). "The indirect CO2 emission implications of energy system pathways: linking IO and TIMES models for the UK" (PDF). Journal of Environmental Science and Technology. 49 (17): 10701–10709. doi:10.1021/acs.est.5b01020. ISSN 1994-7887. Retrieved 2017-04-25.
  28. ^ Pina, André; Silva, Carlos A; Ferrão, Paulo (December 2013). "High-resolution modeling framework for planning electricity systems with high penetration of renewables" (PDF). Applied Energy. 112: 215–223. doi:10.1016/j.apenergy.2013.05.074. ISSN 0306-2619. Retrieved 2017-04-25.
  29. ^ Trutnevyte, Evelina; Barton, John; O'Grady, Áine; Ogunkunle, Damiete; Pudjianto, Danny; Robertson, Elizabeth (November 2014). [strathprints.strath.ac.uk/54055/1/Trutnevyte_etal_TFSC2014_analysis_of_the_UK_power_system_transition.pdf "Linking a storyline with multiple models: a cross-scale study of the UK power system transition"] (PDF). Technological Forecasting and Social Change. 89: 26–42. doi:10.1016/j.techfore.2014.08.018. ISSN 0040-1625. Retrieved 2017-04-25. {{cite journal}}: Check |url= value (help)
  30. ^ DeCarolis, Joseph; Daly, Hannah; Dodds, Paul; Keppo, Ilkka; Li, Francis; McDowall, Will; Pye, Steve; Strachan, Neil; Trutnevyte, Evelina; Usher, Will; Winning, Matthew; Yeh, Sonia; Zeyringer, Marianne (15 May 2017). "Formalizing best practice for energy system optimization modelling". Applied Energy. 194: 184–198. doi:10.1016/j.apenergy.2017.03.001. ISSN 0306-2619.
  31. ^ DeCarolis, Joseph F; Babaee, S; Li, B; Kanungo, S (May 2016). "Modelling to generate alternatives with an energy system optimization model" (PDF). Environmental Modelling and Software. 79: 300–310. doi:10.1016/j.envsoft.2015.11.019. ISSN 1364-8152. Retrieved 2017-04-25.
  32. ^ Gargiulo, Maurizio; Gallachóir, Brian Ó (1 March 2013). "Long-term energy models: principles, characteristics, focus, and limitations". Wiley Interdisciplinary Reviews: Energy and Environment. 2 (2): 158–177. doi:10.1002/wene.62. ISSN 2041-840X.
  33. ^ Krey, Volker (1 July 2014). "Global energy-climate scenarios and models: a review". Wiley Interdisciplinary Reviews: Energy and Environment. 3 (4): 363–383. doi:10.1002/wene.98. ISSN 2041-840X.
  34. ^ Capellán-Pérez, Iñigo; Arto, Iñaki; Markandya, Anil; González-Eguinob, Mikel; Filatova, Tatiana; Pinouche, Felix; Chahim, Mohammed; Kovalevsky, Dmitry V; Hasselmann, Klaus (15 September 2013). State of the art review of climate-energy-economic modeling approaches — COMPLEX report D5.1 (PDF). Retrieved 2017-04-28.
  35. ^ Hourcade, Jean-Charles; Jaccard, Mark; Bataille, Chris; Ghersi, Frédéric (2006). "Hybrid modeling: new answers to old challenges". The Energy Journal. 27: 1–11. Retrieved 2017-04-28.
  36. ^ Taliotis, Constantinos; Rogner, Holger; Ressl, Stephan; Howells, Mark; Gardumi, Francesco (August 2017). "Natural gas in Cyprus: the need for consolidated planning". Energy Policy. 107: 197–209. doi:10.1016/j.enpol.2017.04.047. ISSN 0301-4215. Retrieved 2017-05-04.

Grid data and modeling

edit
  • Rivera et al (2015) on OpenGridMap[1]
    • evince ~/synk/pdfs/2015-rivera-etal-opengridmap-open-platform-inferring-power-grids-crowdsourced-data.pdf &
  • Rivera et al (2017) on OpenGridMap[2]
    • evince ~/synk/pdfs/2017-rivera-etal-opengridmap-towards-automatic-power-grid-simulation-model-generation-crowdsourced-data.pdf &

References

  1. ^ Rivera, José; Goebel, Christoph; Sardari, David; Jacobsen, Hans-Arno (2015). "OpenGridMap: an open platform for inferring power grids with crowdsourced data". In Gottwalt, S; König, L; Schmeck, H (eds.). Energy Informatics: Lecture Notes in Computer Science. Vol. 9424. Cham, Switzerland: Springer International Publishing. pp. 179–191. doi:10.1007/978-3-319-25876-8_15. ISBN 978-3-319-25876-8.
  2. ^ Rivera, Jose; Leimhofer, Johannes; Jacobsen, Hans-Arno (March 2017). "OpenGridMap: towards automatic power grid simulation model generation from crowdsourced data". Computer Science — Research and Development. 32 (1): 13–23. doi:10.1007/s00450-016-0317-4. ISSN 1865-2042.

Economic modeling

edit
  • Wing (2004) on CGE models[1]
    • evince ~/synk/pdfs/2004-wing-computable-general-equilibrium-models-and-economy-wide-policy-analysis.pdf &
  • Devarajan and Go (1998) on a simple CGE[2]
    • evince ~/synk/pdfs/1998-devarajan-and-go-simplest-dynamic-general-equilibrium-model.pdf &

References

  1. ^ Wing, Ian Sue (September 2004). Computable general equilibrium models and their use in economy-wide policy analysis — Technical note 6 (PDF). Cambridge, Massachusetts, USA: Joint Program on the Science and Policy of Global Change. Retrieved 2017-04-25.
  2. ^ Devarajan, Shantayanan; Go, Delfin S (December 1998). "The simplest dynamic general-equilibrium model of an open economy". Journal of Policy Modeling. 20 (6): 677–714. doi:10.1016/S0161-8938(98)00011-8. ISSN 0161-8938. Retrieved 2017-04-25.

Integrated assessment modeling

edit
  • Alcamo (2008) on the storyline and simulation approach[1]

References

  1. ^ Alcamo, Joseph (2008). "Developments in integrated environmental assessment". Developments in Integrated Environmental Assessment. 2: 123–150. doi:10.1016/S1574-101X(08)00406-7. ISSN 1574-101X.

Module design

edit
  • Andersson (2008) on modeling electrical power systems[1]
    • evince ~/synk/pdfs/2008-andersson-modelling-analysis-electric-power-systems.pdf &

References

  1. ^ Andersson, Göran (2008). Modelling and analysis of electric power systems: power flow analysis fault analysis power systems dynamics and stability (PDF). Zürich, Switzerland: ETH Zurich. Retrieved 2016-12-08.

deeco

edit

Papers

edit
  • Groscurth et al (1995)[1]
    • evince ~/synk/pdfs/1995-groscurth-etal-modeling-of-energy-services-supply-systems.pdf &
  • Lindenberger et al (2000) on the SOLEG project[2]
    • evince ~/synk/pdfs/2000-lindenberger-etal-optimization-solar-district-heating-systems.pdf &
  • Bruckner et al (2003)[3]
    • evince ~/synk/pdfs/2003-bruckner-etal-high-resolution-modeling-energy-services-supply-systems-deeco.pdf &

References

  1. ^ Groscurth, Helmuth-M; Bruckner, Thomas; Kümmel, Reiner (September 1995). "Modeling of energy-services supply systems" (PDF). Energy. 20 (9): 941–958. doi:10.1016/0360-5442(95)00067-Q. ISSN 0360-5442. Retrieved 2016-10-14.
  2. ^ Lindenberger, Dietmar; Bruckner, Thomas; Groscurth, Helmuth-M; Kümmel, Reiner (July 2000). "Optimization of solar district heating systems: seasonal storage, heat pumps, and cogeneration" (PDF). Energy. 25 (7): 591–608. doi:10.1016/S0360-5442(99)00082-1. ISSN 0360-5442. Retrieved 2016-12-07.
  3. ^ Bruckner, Thomas; Morrison, Robbie; Handley, Chris; Patterson, Murray (July 2003). "High-resolution modeling of energy-services supply systems using deeco: overview and application to policy development" (PDF). Annals of Operations Research. 121 (1–4): 151–180. doi:10.1023/A:1023359303704. Retrieved 2016-10-14.

Manuals

edit
  • Bruckner (1997) deeco user guide (in German)[1]
    • evince ~/synk/pdfs/1997-bruckner-deeco-benutzerhandbuch.pdf &
  • Bruckner (1997) deeco programmers manual[2]
    • evince ~/synk/pdfs/1997-bruckner-deeco-programmers-manual.pdf &
  • Bruckner (2001) deeco user guide (in German)[3]
    • email of 23 December 2016 saying it was okay to upload to GitHub
    • evince ~/synk/pdfs/2001-bruckner-benutzerhandbuch-deeco-v1.pdf &

References

  1. ^ Bruckner, Thomas (19 December 1997). deeco — Benutzerhandbuch [deeco — user guide] (in German). Würzburg, Germany: Institut für Theoretische Physik der Universität Würzburg.
  2. ^ Bruckner, Thomas (19 December 1997). deeco — Programmer's manual. Würzburg, Germany: Institute for Theoretical Physics, Würzburg University.
  3. ^ Bruckner, Thomas (2001). Benutzerhandbuch deeco — Version 1.0 [User guide deeco — Version 1.0] (in German). Berlin, Germany: Institut für Energietechnik, Technishe Universität Berlin. Alle Rechte an deeco sowie an der das Computerprogramm begleitenden Dokumentation liegen beim Autor. Kein Teil des Werkes darf ohne schriftliche Genehmigung des Autors verändert, reproduziert, elektronisch verarbeitet oder verbreitet werden. Ausgenommen davon ist lediglich die Verwendung zur Unterrichtsgestaltung. / All rights to deeco as well as to the documentation accompanying the computer program are with the author. No part of the work may be altered, reproduced, electronically processed or disseminated without the written permission of the author. The only exception is the use for lesson planning.

xeona

edit
  • Morrison et al (2005)[1]
    • evince ~/synk/pdfs/2005-morrison-etal-policy-oriented-energy-system-modeling-xeona.pdf &

References

  1. ^ Morrison, Robbie; Wittmann, Tobias; Heise, Jan; Bruckner, Thomas (20–22 June 2005). "Policy-oriented energy system modeling with xeona" (PDF). In Norwegian University of Science and Technology (NTNU) (ed.). Proceedings of ECOS 2005: shaping our future energy systems: 18th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems. ECOS 2005. Vol. 2. Trondheim, Norway: Tapir Academic Press. pp. 659–668. ISBN 82-519-2041-8. Retrieved 2016-10-14.

Agent-based

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  • Wittmann and Bruckner (2009)[1]
    • evince ~/synk/pdfs/2009-wittmann-and-bruckner-agent-based-modeling-of-urban-energy-supply-systems.pdf &

References

  1. ^ Wittmann, Tobias; Bruckner, Thomas (28–30 June 2009). Agent-based modeling of urban energy supply systems facing climate protection constraints (PDF). Fifth Urban Research Symposium 2009: Cities and Climate Change: Responding to an Urgent Agenda. Marseille, France: The World Bank. Retrieved 2016-11-11.

Energy-services

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  • Energy-services primer[1]
    • evince ~/synk/pdfs/2008-reinhard-etal-primer-on-energy-services.pdf &

References

  1. ^ Haas, Reinhard; Nakicenovic, Nebojsa; Ajanovic, Amela; Faber, Thomas; Kranzl, Lukas; Müller, Andreas; Resch, Gustav (November 2008). "Towards sustainability of energy systems: a primer on how to apply the concept of energy services to identify necessary trends and policies" (PDF). Transition towards Sustainable Energy Systems. 36 (11): 4012–4021. doi:10.1016/j.enpol.2008.06.028. ISSN 0301-4215. Retrieved 2016-10-22.

Power or load flow

edit
  • Hörsch et al (2017) on a fast "DC" powerflow algorithm implemented in PyPSA[1]
    • evince ~/synk/pdfs/2017-hoersch-etal-linear-optimal-power-flow-using-cycle-arxiv.pdf &

References

  1. ^ Hörsch, Jonas; Ronellenfitsch, Henrik; Witthaut, Dirk; Brown, Tom (2017). "Linear optimal power flow using cycle flows — Prepress". Retrieved 2017-05-04. {{cite journal}}: Cite journal requires |journal= (help)

Nodal pricing

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  • Motto et al (2002) on nodal pricing[1]

References

  1. ^ Motto, Alexis L; Galiana, Fransisco D; Conejo, Antonio J; Arroyo, José M (August 2002). "Network-constrained multiperiod auction for a pool-based electricity market". IEEE Transactions on Power Systems. 17 (3): 646–653. doi:10.1109/TPWRS.2002.800909. ISSN 0885-8950.

Public engagement and outreach

edit
  • Pidgeon et al (2014) on citizen engagement for energy policy[1]
    • evince ~/synk/pdfs/2014-pidgeon-national-citizen-engagement-process-energy-policy.pdf &

References

  1. ^ Pidgeon, Nick; Demski, Christina; Butler, Catherine; Parkhill, Karen; Spence, Alexa (16 September 2014). "Creating a national citizen engagement process for energy policy". Proceedings of the National Academy of Sciences. 111 (Supplement 4): 13606–13613. doi:10.1073/pnas.1317512111. ISSN 0027-8424. PMID 25225393. Retrieved 2017-04-25.

Climate policy

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  • Spruijt et al (2014) on the roles of scientists (experts) as policy advisers on complex issues[1]
    • evince ~/synk/pdfs/2014-spruijt-etal-roles-scientists-as-policy-advisers-complex-issues.pdf &
  • IPCC WG3 AR5 report (complete)[2]
  • IPCC WG3 AR5 social, economic, and ethical (chapter 3)[3]
  • IPCC WG3 AR5 energy systems (chapter 7)[4]
  • IPCC WG3 AR5 glossary (annex I)[5]
  • Hansen et al (2008) on what to do[6]

References

  1. ^ Spruijt, Pita; Knol, Anne B; Vasileiadou, Eleftheria; Devilee, Jeroen; Lebret, Erik; Petersen, Arthur C (June 2014). "Roles of scientists as policy advisers on complex issues: A literature review". Environmental Science and Policy. 40: 16–25. doi:10.1016/j.envsci.2014.03.002. ISSN 1462-9011.  
  2. ^ IPCC (2014). Edenhofer, Ottmar; Pichs-Madruga, Ramón; Sokona, Youba; Farahani, Ellie; Kadner, Susanne; Seyboth, Kristin; Adler, Anna; Baum, Ina; Brunner, Steffen; Eickemeier, Patrick; Kriemann, Benjamin; Savolainen, Jussi; Schlömer, Steffen; von Stechow, Christoph; Zwickel, Timm; Minx, Jan C (eds.). Climate Change 2014: Mitigation of Climate Change Working Group III: Contribution to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (PDF). Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press. ISBN 978-1-107-65481-5. Retrieved 2016-11-14.
  3. ^ Kolstad, Charles; Urama, Kevin; Broome, John; Bruvoll, Annegrete; Olvera, Micheline Cariño; Fullerton, Don; Gollier, Christian; Hanemann, William Michael; Hassan, Rashid; Jotzo, Frank; Khan, Mizan R; Meyer, Lukas; Mundaca, Luis (2014). "Chapter 3: Social, economic, and ethical concepts and methods". In IPCC (ed.). Climate change 2014: mitigation of climate change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (PDF). Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press. pp. 207–282. ISBN 978-1-107-65481-5. Retrieved 2016-05-09.
  4. ^ Bruckner, Thomas; Bashmakov, Igor Alexeyevic; Mulugetta, Yacob; et al. (2014). "Chapter 7: Energy systems". In IPCC (ed.). Climate change 2014: mitigation of climate change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (PDF). Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press. pp. 511–597. ISBN 978-1-107-65481-5. Retrieved 2016-05-09.
  5. ^ Allwood, Julian M; Bosetti, Valentina; Dubash, Navroz K; Gómez-Echeverri, Luis; von Stechow, Christoph (2014). "Annex I: Glossary, acronyms and chemical symbols". In IPCC (ed.). Climate change 2014: mitigation of climate change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (PDF). Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press. pp. 1249–1279. ISBN 978-1-107-65481-5. Retrieved 2016-05-09.
  6. ^ Hansen, James; Sato, Makiko; Kharecha, Pushker; Beerling, David; Berner, Robert; Masson-Delmotte, Valerie; Pagani, Mark; Raymo, Maureen; Royer, Dana L; Zachos, James C (31 October 2008). "Target atmospheric CO2: Where should humanity aim?" (PDF). The Open Atmospheric Science Journal. 2: 217–231. arXiv:0804.1126. Bibcode:2008OASJ....2..217H. doi:10.2174/1874282300802010217. Retrieved 2016-10-31.

Carbon pricing

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EU ETS carbon price signal and corridor

edit
  • Wemaere (2016) on why a carbon price corridor is not a tax[1]
    • evince ~/synk/pdfs/2016-wemaere-why-a-carbon-price-corridor-is-not-a-tax.pdf &
  • webpage on why a carbon price corridor is not a tax[2]
  • webpage on carbon signals[3]
  • more reports available

References

  1. ^ Wemaere, Matthieu (May 2016). Why a carbon price corridor is not a tax: legal and procedural aspects of implementing a "carbon price corridor" within the EU ETS (PDF). Paris, France: The Shift Project. Retrieved 2016-12-13. Two-thirds of the document is in French.
  2. ^ Berthault, Marion (2 June 2016). "Why a carbon price corridor is not a tax". The Shift Project. Paris, France. Retrieved 2016-12-13.
  3. ^ "Revive the EU ETS carbon price signal to attract low-carbon investments and innovation to achieve our long term climate goals". The Shift Project. Paris, France. Retrieved 2016-12-13.

Open access

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  • open access (see E-Print-Archive und E-Journals)[1]

References

  1. ^ Grötschel, Martin (29 June 2016). Elektronisches Publizieren, Open Access, Open Science und ähnliche Träume — Preprint [Electronic publishing, open access, open science and similar dreams — Preprint] (PDF) (in German). Retrieved 2016-09-15. Persistent identifier: urn:nbn:de:kobv:b4-opus4-25132 License: Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Germany.

Visualization

edit
  • German electricity system visualization[1]

References

  1. ^ Evans, Simon (20 September 2016). "Mapped: how Germany generates its electricity". Carbon Brief. London, UK. Retrieved 2016-09-20.

LCOE studies

edit
  • LCOE data from 2015[1]
    • evince ~/synk/pdfs/2015-iea-nea-oecd-lcoe-summary.pdf &
    • Bruckner (2016) comments on this study: renewables are comparable to nuclear and integration costs need consideration

References

  1. ^ Projected costs of generating electricity: 2015 edition — Executive summary (PDF). Paris, France: International Energy Agency (IEA), Nuclear Energy Agency (NEA), and Organization for Economic Co-operation and Development (OECD). 2015. Retrieved 2016-11-08. {{cite book}}: Cite uses deprecated parameter |authors= (help)

Transmission modeling

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  • Fitiwi et al (2016) on transmission expansion planning[1]

References

  1. ^ Fitiwi, Desta Z; Olmos, L; Rivier, M; de Cuadra, F; Pérez-Arriaga, IJ (15 April 2016). "Finding a representative network losses model for large-scale transmission expansion planning with renewable energy sources". Energy. 101: 343–358. doi:10.1016/j.energy.2016.02.015. ISSN 0360-5442.

Nuclear technologies

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  • Jassby (2017) on the poor case for fusion[1]

References

  1. ^ Jassby, Daniel (19 April 2017). "Fusion reactors: not what they're cracked up to be". Bulletin of the Atomic Scientists. Retrieved 2017-04-26.

Sufficiency

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  • Trainer (2010) paper on the need for sufficiency and renewables[1]
  • Trainer (2012) report on the need for sufficiency and renewables[2]
    • evince ~/synk/pdfs/2012-trainer-can-renewable-energy-sustain-consumer-societies.pdf &

References

  1. ^ Trainer, Ted (August 2010). "Can renewables etc. solve the greenhouse problem? The negative case". Energy Policy. 38 (8): 4107–4114. doi:10.1016/j.enpol.2010.03.037. ISSN 0301-4215.
  2. ^ Trainer, Ted (2012). Can renewable energy sustain consumer societies? A negative case — Report 12e (PDF). Simplicity Institute. Retrieved 2016-12-05. This report is an improved version of a paper published in Energy Policy (2010), made possible by the recent publication of better cost and output data. It arrives at a much lower estimate of the energy investment required, but the figure is still unaffordable.

Open source development

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  • Bhartiya (2016) on active engagement[1]: 14 
    • Greg Kroah-Hartman on his first experience submitting code to the Linux kernel: "I wrote a driver over the weekend and submitted it, and I swear within an hour people came back pointing out problems and telling me: This is wrong; this is wrong; this is wrong. It felt awesome. They were critiquing my code, and I was learning from it, so I said 'Yes, you are right. This is wrong, this is wrong, and this is wrong.' I iterated and fixed problems with it. It got accepted into the kernel. It was fun. I think feedback is very important. That feedback loop of people pointing out errors or problems with what you're doing is very traditional. I guess [that is the] scientific method. And I love it. That's how we get better."
  • Barnes (2010) on publishing scientific code[2]
    • evince ~/synk/pdfs/2010-barnes-publish-your-computer-code-scientific.pdf &
  • Morin et al (2012) on selecting a scientific software licenses[3]
    • evince ~/synk/pdfs/2012-morin-etal-selecting-scientific-software-licenses.pdf &
  • Gkotsopoulou et al (2017) on open science in Europe[4]
    • evince ~/synk/pdfs/2017-gkotsopoulou-fsfe-position-paper-free-software-open-standards-eu-horizon-2020.pdf &
  • Pfenninger (2017) on open energy research.[5]
    • evince ~/synk/pdfs/2017-pfenninger-energy-scientists-must-show-their-workings.pdf &

References

  1. ^ Bhartiya, Swapnil (December 2016). "World domination: an interview with Greg Kroah-Hartman". Linux Magazine (193): 14–16. Retrieved 2016-11-28.
  2. ^ Barnes, Nick (13 October 2010). "Publish your computer code: it is good enough" (PDF). Nature News. 467 (7317): 753–753. doi:10.1038/467753a. ISSN 0028-0836. Retrieved 2016-12-10.
  3. ^ Morin, Andrew; Urban, Jennifer; Sliz, Piotr (26 July 2012). "A quick guide to software licensing for the scientist-programmer". PLOS Computational Biology. 8 (7): e1002598. doi:10.1371/journal.pcbi.1002598. ISSN 1553-7358. Retrieved 2016-12-10.{{cite journal}}: CS1 maint: unflagged free DOI (link)  
  4. ^ Gkotsopoulou, Olga; Albers, Erik; Di Cosmo, Roberto; Malaja, Polina; Sanjurjo, Fernando (5 January 2017). Position paper for the endorsement of free software and open standards in Horizon 2020 and all publicly-funded research (PDF). Berlin, Germany: Free Software Foundation Europe (FSFE). Retrieved 2017-02-09.
  5. ^ Pfenninger, Stefan (23 February 2017). "Energy scientists must show their workings" (PDF). Nature News. 542 (7642): 393. doi:10.1038/542393a. Retrieved 2017-02-26.

Open data

edit
  • Berndtsson (2016) on open spatial data for energy planning[1]
    • evince ~/synk/pdfs/2016-berndtsson-open-geospatial-data-for-energy-planning-msc.pdf &
  • Klessmann et al (2012) on open government data[2]
    • evince ~/synk/pdfs/2012-klessmann-etal-open-government-data-germany.pdf &

References

  1. ^ Berndtsson, Carl (2016). Open geospatial data for energy planning (MSc). Stockholm, Sweden: KTH School of Industrial Engineering and Management. Retrieved 2017-03-07.
  2. ^ Klessmann, Jens; Denker, Philipp; Schieferdecker, Ina; Schulz, Sönke E (July 2012). Open government data Germany: short version of the study on open government in Germany — Commissioned by the Federal Ministry of the Interior (PDF). Berlin, Germany: Federal Ministry of the Interior. Retrieved 2017-03-09.

Other numerical modeling

edit
  • Courty et al (2016) on a GIS dynamic flood simulation model called Itzi[1]
    • under public review, the citation might change on formal publication
    • evince ~/synk/pdfs/2016-courty-etal-itzi-open-source-destributed-gis-model-dynamic-flood-simulation.pdf &

References

  1. ^ Courty, Laurent Guillaume; Pedrozo-Acuña, Adrián; Bates, Paul David (15 December 2016). "Itzï (version 16.8): an open-source, distributed GIS model for dynamic flood simulation" (PDF). Geoscientific Model Development Discussions. 2016: 1–20. doi:10.5194/gmd-2016-283. ISSN 1991-962X. Retrieved 2016-12-15.{{cite journal}}: CS1 maint: unflagged free DOI (link)

Thermodynamics

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  • Carrington (1994)[1]

References

  1. ^ Carrington, Gerald (4 August 1994). Basic thermodynamics (1st ed.). Oxford, United Kingdom: Oxford University Press. ISBN 978-0-19-851747-4.

WCF reference database project

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Pybliographer material

  • pybliographer user guide[1]
  • pybliographer development guide[2]
  • pybliographer design handbook[3]

References

  1. ^ Gobry, Frédéric; Schulte-Stracke, Peter (29 May 2003). Pybliographer user's guide (PDF). Pybliographer Project. Retrieved 2017-01-02.
  2. ^ Gobry, Frédéric; Schulte-Stracke, Peter (26 July 2003). Pybliographer development guide (PDF). Pybliographer Project. Retrieved 2017-01-02.
  3. ^ Gobry, Frédéric; Schulte-Stracke, Peter (21 February 2003). Pybliographer design handbook (PDF). Pybliographer Project. Retrieved 2017-01-02.

Fukushima

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  • Japan's trade and industry ministry recently (as of 2017) estimated the clean up as costing ¥21.5 trillion (US$189 billion).[1]

References

  1. ^ McCurry, Justin (9 March 2017). "Dying robots and failing hope: Fukushima clean-up falters six years after tsunami". The Guardian. London, United Kingdom. ISSN 0261-3077. Retrieved 2017-03-09.

Software

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  • Prokoudine (2013) on GIMP and metadata support[1]

References

  1. ^ Prokoudine, Alexandre (29 October 2013). "GIMP gets advanced Exif, XMP, IPTC metadata support". Libre Graphics World. Retrieved 2017-03-20.

Other

edit
  • IEA (2012) on energy balances[1]
    • evince ~/synk/pdfs/2012-iea-energy-balances-non-oecd-countries.pdf &
    • methodology for net calorific value (combustible fuels) and direct equivalent method (nuclear and renewable energy)
  • JPI Climate (2015) on open knowledge policies for climate change research — not very cogent[2]
  • Jacobs (2012) on feed-in policy[3]
  • REN21 global renewable status[4]
  • Groba and Breitschopf (2013) on the induced innovation hypothesis and similar[5]
  • Wassermann et al (2012) on an ABM for the market integration of renewables[6]
  • renewable energy forecasts and reality[7]: 13 
  • TTIP threat to feed-in tariffs[8]
  • integration of renewable energy in Europe[9]
  • presentation by Lion[10]
  • Pye and Bataille (2016) on DDPP modeling roadmap[11]
  • Open building energy simulation tool[12]
  • Naughton (2016) on algorithms, big data, and competition law[13]
  • Greenstein and Zhu (2016) on the accuracy of Wikipedia[14]
    • evince ~/synk/pdfs/2016-greenstein-and-zhu-encyclopaedia-britannica-versus-wikipedia.pdf &
  • Lobe (2016) on Wikipedia (in German)[15]
  • content is made available in jurisdiction where the server is located[16]
  • UK Aqua book on analysis for government[17]
    • nice breakdown: risk, uncertainty, and errors
    • evince ~/synk/pdfs/2015-aqua-book-guidance-on-producing-quality-analysis-for-government.pdf &
  • DFG (2017) on research replicability[18]
    • evince ~/synk/pdfs/2017-dfg-replicability-of-research-results-statement.pdf &

References

  1. ^ Energy balances of non-OECD countries (PDF). Paris, France: International Energy Agency (IEA). 2012. ISBN 978-92-64-17466-5. Retrieved 2016-11-14.
  2. ^ Designing comprehensive open knowledge policies to face climate change — End report (PDF). Vienna, Austria: JPI Climate symposium. 22–23 October 2015. Retrieved 2016-08-08. Released under a CC0 1.0 Universal license.
  3. ^ Jacobs, David (2012). Renewable energy policy convergence in the EU: the evolution of feed-in tariffs in Germany, Spain and France. Milton Park, UK and New York, USA: Routledge. ISBN 978-1409439097.
  4. ^ REN21 (2016). Renewables 2016 Global Status Report (PDF). Paris, France: REN21 Secretariat. ISBN 978-3-9818107-0-7. Retrieved 2016-06-28.{{cite book}}: CS1 maint: numeric names: authors list (link)
  5. ^ Groba, Felix; Breitschopf, Barbara (July 2013). Impact of renewable energy policy and use on innovation: a literature review — Corrected version November 2013 (PDF). Berlin, Germany: German Institute for Economic Research (DIW). ISSN 1619-4535. Retrieved 2016-07-01.
  6. ^ Wassermann, Sandra; Hauser, Wolfgang; Klann, Uwe; Nienhaus, Kristina; Reeg, Matthias; Rhiel, Benedikt; Roloff, Nils; Weimer-Jehle, Wolfgang (2012). "Renewable energy policies in Germany: analysis of actors and new business models as a reaction to the redesign and adjustment of policy instruments" (PDF). Conference Proceedings of 12th IAEE European Conference — Energy challenge and environmental sustainability, 9–12 September 2012, Venice, Italy. Retrieved 2016-07-01.
  7. ^ Pieprzyk, Björn; Hilje, Paula Rojas (May 2009). Erneuerbare Energien — Vorhersage und Wirklichkeit. Vergleich von Prognosen und Szenarien mit der tatsächlichen Entwicklung Erneuerbarer Energien. Deutschland, Europa, Welt — Expert opinion [Renewables — prediction and reality. Comparison of forecasts and scenarios with the actual development of renewable energies. Germany, Europe, World — Expert opinion] (PDF) (in German). Berlin, Germany: Agentur für Erneuerbare Energien (Renewable Energies Agency). Retrieved 2016-07-24.
  8. ^ Neslen, Arthur (11 July 2016). "Leaked TTIP energy proposal could 'sabotage' EU climate policy". The Guardian. Retrieved 11 July 2016.
  9. ^ Integration of renewable energy in Europe — Final report — Report no: 9011-700 (PDF). Bonn, Germany: DNV GL – Energy. 12 June 2014. Retrieved 2016-07-09.
  10. ^ Hirth, Lion; Radebach, Alexander (27 November 2015). The market value of wind and solar power: an analytical approach — Presentation (PDF). Berlin, Germany: Neon Neue Energieökonomik. Retrieved 2016-07-07.
  11. ^ Pye, Steve; Bataille, Chris (2016). "Improving deep decarbonization modelling capacity for developed and developing country contexts". Climate Policy. 16 (S1): S27–S46. doi:10.1080/14693062.2016.1173004.
  12. ^ Kim, Hyunjoo; Anderson, Kyle (May 2013). "Energy modeling system using building information modeling open standards". Journal of Computing in Civil Engineering. 27 (3): 203–211. doi:10.1061/(ASCE)CP.1943-5487.0000215. ISSN 0887-3801.
  13. ^ Naughton, John (4 December 2016). "How do you throw the book at an algorithm?". The Guardian. London, United Kingdom. ISSN 0261-3077. Retrieved 2016-12-06.
  14. ^ Greenstein, Shane; Zhu, Feng (1 March 2016). Do experts or collective intelligence write with more bias? Evidence from Encyclopaedia Britannica and Wikipedia — Working Paper 15-023 (PDF). Cambridge, MA, USA: Harvard Business School. Retrieved October 31, 2016.
  15. ^ Lobe, Adrian (30 November 2016). "Fake-News: Kann Wikipedia die Wahrheitsinstanz unserer Zeit bleiben?" [Fake news: can Wikipedia remain the truth of our time?]. Berliner Zeitung (in German). Berlin, Germany. Retrieved 2016-12-23.
  16. ^ "Content is 'made available' in jurisdiction where server is located, rules High Court". Pinsent Masons (Out-Law.com). London, United Kingdom. 18 November 2010. Retrieved 2017-01-17.
  17. ^ The Aqua Book: guidance on producing quality analysis for government (PDF). London, United Kingdom: HM Treasury. March 2015. ISBN 978-1-910337-67-7. Retrieved 2017-02-04.
  18. ^ Replicability of research results: a statement by the German Research Foundation (PDF). Bonn, Germany: Deutsche Forschungsgemeinschaft (DFG, German Research Foundation). April 2017. Retrieved 2017-04-25.

Local

edit
  • evince ~/synk/pdfs/2016-pye-and-bataille-ddpp-roadmap.pdf &
  • evince ~/synk/phd/writeup/morrison-phd.pdf &

References

edit
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