Gaseous fuels - COFFEE-TEA: Difference between revisions

Revision as of 21:40, 20 February 2019

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 GRACE IFs IMAGE MESSAGE-GLOBIOM POLES PROMETHEUS TIAM-UCL
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

For gaseous fuels, the only options presented in this section are related to hydrogen technologies. Synthetic natural gas technologies are not addressed in the COFFEE model. Despite that, they can be easily introduced into the modelling framework in future analysis if it is needed.

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+For gaseous fuels, the only options presented in this section are related to hydrogen technologies. Synthetic natural gas technologies are not addressed in the COFFEE model. Despite that, they can be easily introduced into the modelling framework in future analysis if it is needed.

Gaseous fuels - COFFEE-TEA: Difference between revisions

Revision as of 21:40, 20 February 2019

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