User:RobbieIanMorrison/sandbox/references


 * publications

Incomplete

 * CLEW: https://www.stiftung-mercator.de/media/bilder/4_Partnergesellschaften/CLEW/CLEW_A_Reporters_Guide_to_the_Energiewende_Energiewende_Klimawandel_Klimaschutz_Mercator_.pdf


 * DIW report on two price zones: http://www.diw.de/documents/publikationen/73/diw_01.c.497246.de/dp1451.pdf


 * sector coupling study: http://pvspeicher.htw-berlin.de/wp-content/uploads/2016/05/HTW-2016-Sektorkopplungsstudie.pdf


 * history of the Energiewende: https://www.cleanenergywire.org/dossiers/history-energiewende


 * milestones of the German Energiewende: https://www.cleanenergywire.org/factsheets/milestones-german-energiewende


 * Renewable Energies in Germany's Electricity Market: A Biography of the Innovation Process: http://www.springer.com/de/book/9789048199044


 * German Energiewende and the heating market: http://www.sciencedirect.com/science/article/pii/S0301421516301410


 * Negative Price Spikes at Power Markets – The Role of Energy Policy: http://www.rwi-essen.de/media/content/pages/publikationen/ruhr-economic-papers/rep_16_636.pdf


 * The Global Green Economy Index GGEI 2016 — Measuring National Performance in the Green Economy — 5th Edition - September 2016: http://dualcitizeninc.com/GGEI-2016.pdf


 * Linked open data: http://www.diachron-fp7.eu/uploads/2/1/2/0/21208652/ercim_no_96.pdf
 * ERCIM News special theme

Global energy

 * Ekins et al (2015) on global energy


 * IEA 2016 world energy outlook


 * IRES energy statistics recommendations


 * IEA (2016)

Citizen participation (for Energiewende article)

 * Borchert (2015) on citizens participation in the Energiewende


 * Morris (2015) on energy co-ops


 * Mühlenhoff (2010) on value creation

Germany

 * Pöyri (2013) on no new coal-fired power stations in Germany


 * Loreck et al (2013) imports of nuclear power did not increase


 * Kemfert et al (2015) on transmission planning


 * Kemfert et al (2016) on transmission planning


 * Climate Action Programme 2020


 * Beveridge and Kern (2013) on the Energiewende background, developments, challenges


 * Third Report of the Enquete Commission (no PDF)


 * Mez and Piening (2002) on phasing-out nuclear power


 * Jacobsson and Lauber (2006) on the politics of energy system transformation


 * supply security and the nuclear phaseout, Huneke et al (2016)


 * Morris and Jungjohann (2016) book on the Energiewende


 * Argyropoulos et al (2016) on the impact of recent legislative changes in Germany


 * Dieckhoff and Leuschner (2016) on the usefulness and limitations of energy scenarios and energy models within the context of the Energiewende.
 * 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
 * lots of numbers, apparently very good


 * Egerer et al (2014) on electricity sector data


 * Milano (2010) on power system scripting


 * Medjroubi et al (2017) on open power grid modeling


 * Hager and Stefes (2016) on the Energiewende


 * Lunz et al (2016) on German energy scenarios

United Kingdom

 * Keay (2016) on stuck UK energy policy


 * Trutnevyte et al (2016) on UK modeling
 * covers history of modeling, including the DECC efforts
 * see also DeCarolis et al (2017, section 4) for a summary

Europe

 * Heide et al (2011) on reduced storage and balancing needs

USA

 * Schuwerk (2017) on abandoned and unremediated mines

Merit order effect

 * A 2007 and 2008 study discussed the merit order effect.


 * Appunn (2015), CLEW factsheet on the merit order effect


 * Appunn (2016) on re-dispatch costs


 * Amelang (2016) on grid stabilization fee


 * Trepper et al (2015) on market splitting and redispatch

Energy modeling

 * Bruckner (2016) on energy system modeling
 * candid paper on interpreting IAMs


 * Strachan (2011) on UK modeling: Energy modelling capacity is a critical underpinning for iterative energy policy making


 * Linked open data


 * Climate Tagger project


 * Tomaschek (2013) thesis on transport sector modeling for South Africa


 * Duplessis et al (2012) on energy services typology.


 * Böhringer and Rutherford (2009) on integrated assessment of energy policies


 * Martinsen (2011) on technological learning


 * Wene (1999) on linking macroeconomic and engineering approaches


 * EMF32: US GHG and revenue recycling scenarios (reports late-2016)


 * Quelhas et al (2007) on a national US model


 * Jebaraj and Iniyan (2006) on modeling methods


 * Strachan and Warren (2011)


 * Weidlich and Veit (2008) review of agent-based electricity market models


 * Mundaca et al (2010) on evaluating energy efficiency policies with energy-economy models
 * 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).
 * 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).
 * 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
 * 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


 * Nahmmacher et al (2016) on reducing time series


 * Bhattacharyya and Timilsina (2010) on a review of energy system models


 * Henning et al (2006) on modeling district heat systems


 * Henning (1997) on MODEST


 * Simoes et al (2017) on geographical resolution in models


 * Liao et al (2009) on, among other things, average shadow prices
 * describes concept of an average shadow price for discrete optimization, but may not be widely applicable


 * Dodds and McDowall (2014) on road transport modeling


 * Daly (2015) on hurdle rates
 * mostly on hurdle rates, including household decisions


 * Daly et al (2015) on model linking


 * Pina et al (2013) on a high-resolution modeling framework
 * dispatch and investment


 * Trutnevyte et al (2014) on model storylines


 * DeCarolis et al (2017) on best practice for energy system optimization modeling
 * contains a good section on scenario analysis


 * DeCarolis et al (2016) on modeling to generate alternatives


 * Gargiulo and Gallachóir (2013) on long-term energy models


 * Krey (2014) on energy/climate scenarios


 * Capellán-Pérez et al (2013) on climate-energy-economic modeling


 * Hourcade et al (2010) on hybrid modeling
 * good treatment of top-down and bottom-up modeling


 * Taliotis et al (2017) on OSeMOSYS and Cyprus

Grid data and modeling

 * Rivera et al (2015) on OpenGridMap


 * Rivera et al (2017) on OpenGridMap

Economic modeling

 * Wing (2004) on CGE models


 * Devarajan and Go (1998) on a simple CGE

Integrated assessment modeling

 * Alcamo (2008) on the storyline and simulation approach

Module design

 * Andersson (2008) on modeling electrical power systems

Papers

 * Groscurth et al (1995)


 * Lindenberger et al (2000) on the SOLEG project


 * Bruckner et al (2003)

Manuals

 * Bruckner (1997) deeco user guide (in German)


 * Bruckner (1997) deeco programmers manual


 * Bruckner (2001) deeco user guide (in German)
 * email of 23 December 2016 saying it was okay to upload to GitHub

xeona

 * Morrison et al (2005)

Agent-based

 * Wittmann and Bruckner (2009)

Energy-services

 * Energy-services primer

Power or load flow

 * Hörsch et al (2017) on a fast "DC" powerflow algorithm implemented in PyPSA

Nodal pricing

 * Motto et al (2002) on nodal pricing

Public engagement and outreach

 * Pidgeon et al (2014) on citizen engagement for energy policy

Climate policy

 * Spruijt et al (2014) on the roles of scientists (experts) as policy advisers on complex issues


 * IPCC WG3 AR5 report (complete)


 * IPCC WG3 AR5 social, economic, and ethical (chapter 3)


 * IPCC WG3 AR5 energy systems (chapter 7)


 * IPCC WG3 AR5 glossary (annex I)


 * Hansen et al (2008) on what to do

EU ETS carbon price signal and corridor

 * Wemaere (2016) on why a carbon price corridor is not a tax


 * webpage on why a carbon price corridor is not a tax


 * webpage on carbon signals


 * more reports available

Open access

 * open access (see E-Print-Archive und E-Journals)

Visualization

 * German electricity system visualization

LCOE studies

 * LCOE data from 2015
 * Bruckner (2016) comments on this study: renewables are comparable to nuclear and integration costs need consideration
 * Bruckner (2016) comments on this study: renewables are comparable to nuclear and integration costs need consideration

Transmission modeling

 * Fitiwi et al (2016) on transmission expansion planning

Nuclear technologies

 * Jassby (2017) on the poor case for fusion

Sufficiency

 * Trainer (2010) paper on the need for sufficiency and renewables


 * Trainer (2012) report on the need for sufficiency and renewables

Open source development

 * Bhartiya (2016) on active engagement
 * 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


 * Morin et al (2012) on selecting a scientific software licenses


 * Gkotsopoulou et al (2017) on open science in Europe


 * Pfenninger (2017) on open energy research.

Open data

 * Berndtsson (2016) on open spatial data for energy planning


 * Klessmann et al (2012) on open government data

Other numerical modeling

 * Courty et al (2016) on a GIS dynamic flood simulation model called Itzi
 * under public review, the citation might change on formal publication

Thermodynamics

 * Carrington (1994)

WCF reference database project
Pybliographer material


 * pybliographer user guide


 * pybliographer development guide


 * pybliographer design handbook

Fukushima

 * Japan's trade and industry ministry recently estimated the clean up as costing ¥21.5 trillion (US$189 billion).

Software

 * Prokoudine (2013) on GIMP and metadata support

Other

 * IEA (2012) on energy balances
 * methodology for net calorific value (combustible fuels) and direct equivalent method (nuclear and renewable energy)
 * 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


 * Jacobs (2012) on feed-in policy


 * REN21 global renewable status


 * Groba and Breitschopf (2013) on the induced innovation hypothesis and similar


 * Wassermann et al (2012) on an ABM for the market integration of renewables


 * renewable energy forecasts and reality


 * TTIP threat to feed-in tariffs


 * integration of renewable energy in Europe


 * presentation by Lion


 * Pye and Bataille (2016) on DDPP modeling roadmap


 * Open building energy simulation tool


 * Naughton (2016) on algorithms, big data, and competition law


 * Greenstein and Zhu (2016) on the accuracy of Wikipedia


 * Lobe (2016) on Wikipedia (in German)


 * content is made available in jurisdiction where the server is located


 * UK Aqua book on analysis for government
 * nice breakdown: risk, uncertainty, and errors


 * DFG (2017) on research replicability