References - COFFEE-TEA

{{#scite:

|bibtex=@article{armington1969theory,

title={A theory of demand for products distinguished by place of production},

author={Armington, Paul S},

journal={Staff Papers},

volume={16},

number={1},

pages={159--178},

year={1969},

publisher={Springer}

}

}}

{{#scite:

|bibtex=@article{kc2017,

title = "The human core of the shared socioeconomic pathways: Population scenarios by age, sex and level of education for all countries to 2100",

journal = "Global Environmental Change",

volume = "42",

pages = "181 - 192",

year = "2017",

issn = "0959-3780",

doi = "https://doi.org/10.1016/j.gloenvcha.2014.06.004",

url = "http://www.sciencedirect.com/science/article/pii/S0959378014001095",

author = "Samir KC and Wolfgang Lutz"

}

}}

{{#scite:

|bibtex=@article{dellink2017,

title = "Long-term economic growth projections in the Shared Socioeconomic Pathways",

journal = "Global Environmental Change",

volume = "42",

pages = "200 - 214",

year = "2017",

doi = "https://doi.org/10.1016/j.gloenvcha.2015.06.004",

author = "Rob Dellink and Jean Chateau and Elisa Lanzi and Bertrand Magné"

}

}}

{{#scite:

|bibtex=@article{fricko2017,

title = "The marker quantification of the Shared Socioeconomic Pathway 2: A middle-of-the-road scenario for the 21st century",

author={Fricko, Oliver and Havlik, Petr and Rogelj, Joeri and Klimont, Zbigniew and Gusti, Mykola and Johnson, Nils and Kolp, Peter and Strubegger, Manfred and Valin, Hugo and Amann, Markus and others},

journal = "Global Environmental Change",

volume = "42",

pages = "251 - 267",

year = "2017",

issn = "0959-3780",

doi = "https://doi.org/10.1016/j.gloenvcha.2016.06.004"

}

}}

 {{#scite:

|bibtex=@article{iea2014world,

title={World energy investment outlook},

author={International Energy Agency},

journal={International Energy Agency},

url={http://www.iea.org/publications/freepublications/publication/WEIO2014.pdf},

year={2014}

}

}}

{{#scite:

|bibtex=@article{aguiar2016overview,

title={An overview of the GTAP 9 data base},

author={Aguiar, Angel and Narayanan, Badri and McDougall, Robert},

journal={Journal of Global Economic Analysis},

volume={1},

number={1},

pages={181--208},

year={2016}

}

}}

{{#scite:

|bibtex=@article{rutherford1999applied,

title={Applied general equilibrium modeling with MPSGE as a GAMS subsystem: An overview of the modeling framework and syntax},

author={Rutherford, Thomas F},

journal={Computational economics},

volume={14},

number={1-2},

pages={1--46},

year={1999},

publisher={Springer}

}

}}

{{#scite:

|bibtex=@internet{iiasa2015,

title={SSP Model Description},

author={IIASA},

institution={IIASA},

url={https://tntcat.iiasa.ac.at/SspDb/download/iam_scenario_doc/SSP_Model_Documentation.pdf},

year={2015}

}

}}

{{#scite:

|bibtex=@Thesis{rochedo2016,

title={Development of a global integrated energy model to evaluate the Brazilian role in climate change mitigation scenarios},

author={Rochedo, Pedro Rua Rodriguez},

institution={PPE-COPPE/UFRJ},

month={08},

year={2016}

}

}}

{{#scite:

|bibtex=@article{rutherford1997gtapingams,

title={GTAPinGAMS: The Dataset and Static Model},

author={Thomas Rutherford},

journal={Global Trade Analysis Project (GTAP)},

year={1997},

address={Department of Agricultural Economics, Purdue University, West Lafayette, IN},

type={Thomas F. Rutherford},

url={https://www.gtap.agecon.purdue.edu/resources/res_display.asp?RecordID=409}

}

}}

{{#scite:

|bibtex=@article{paltsev2005emissions,

title={The MIT emissions prediction and policy analysis (EPPA) model: version 4},

author={Paltsev, Sergey and Reilly, John M and Jacoby, Henry D and Eckaus, Richard S and McFarland, James R and Sarofim, Marcus C and Asadoorian, Malcolm O and Babiker, Mustafa HM},

year={2005},

journal={MIT Joint Program on the Science and Policy of Global Change}

}

}}

{{#scite:

|bibtex=@article{yang1996miteppa,

title={The MIT Emissions Prediction and Policy Analysis (EPPA) Model},

author={Yang, Z. and Eckaus, R.S. and Ellerman, A.D. and Jacoby, H.D.},

year={1996},

journal={MIT Joint Program on the Science and Policy of Global Change},

url={http://globalchange.mit.edu/publication/14576}

}

}}

Note: The documentation of COFFEE-TEA is 'under review' and is not yet 'published'!

Model Documentation - COFFEE-TEA
Model scope and methods - COFFEE-TEA Model concept, solver and details - COFFEE-TEA Temporal dimension - COFFEE-TEA Spatial dimension - COFFEE-TEA Macro-economy - COFFEE-TEA Production system and representation of economic sectors - COFFEE-TEA Capital and labour markets - COFFEE-TEA Monetary instruments - COFFEE-TEA Trade - COFFEE-TEA Technological change - COFFEE-TEA Energy - COFFEE-TEA Energy resource endowments - COFFEE-TEA Fossil energy resources - COFFEE-TEA Uranium and other fissile resources - COFFEE-TEA Bioenergy - COFFEE-TEA Non-biomass renewables - COFFEE-TEA Energy conversion - COFFEE-TEA Electricity - COFFEE-TEA Heat - COFFEE-TEA Gaseous fuels - COFFEE-TEA Liquid fuels - COFFEE-TEA Solid fuels - COFFEE-TEA Grid, pipelines and other infrastructure - COFFEE-TEA Energy end-use - COFFEE-TEA Transport - COFFEE-TEA Residential and commercial sectors - COFFEE-TEA Industrial sector - COFFEE-TEA Other end-use - COFFEE-TEA Energy demand - COFFEE-TEA Technological change in energy - COFFEE-TEA Land-use - COFFEE-TEA Agriculture - COFFEE-TEA Forestry - COFFEE-TEA Land-use change - COFFEE-TEA Bioenergy land-use - COFFEE-TEA Other land-use - COFFEE-TEA Agricultural demand - COFFEE-TEA Technological change in land-use - COFFEE-TEA Emissions - COFFEE-TEA GHGs - COFFEE-TEA Pollutants and non-GHG forcing agents - COFFEE-TEA Carbon dioxide removal (CDR) options - COFFEE-TEA Climate - COFFEE-TEA Modelling of climate indicators - COFFEE-TEA Climate damages, temperature changes - COFFEE-TEA Non-climate sustainability dimension - COFFEE-TEA Air pollution and health - COFFEE-TEA Water - COFFEE-TEA Other materials - COFFEE-TEA Other sustainability dimensions - COFFEE-TEA Appendices - COFFEE-TEA Mathematical model description - COFFEE-TEA Data - COFFEE-TEA References - COFFEE-TEA
Corresponding documentation
AIM-Hub BLUES C3IAM COFFEE-TEA DNE21+ GCAM GEM-E3 GRACE IFs IMACLIM IMAGE MESSAGE-GLOBIOM POLES PROMETHEUS REMIND-MAgPIE TIAM-UCL WITCH
Previous versions
Archive of COFFEE-TEA version v1
Model information
Model link
Institution	COPPE/UFRJ (Cenergia), Brazil, http://www.cenergialab.coppe.ufrj.br/.
Solution concept	General equilibrium (closed economy)
Solution method	The COFFEE model is solved through Linear Programming (LP). The TEA model is formulated as a mixed complementary problem (MCP) and is solved through Mathematical Programming System for General Equilibrium -- MPSGE within GAMS using the PATH solver.
Anticipation

References - COFFEE-TEA

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