CCS Infrastructure Development Scenarios for the Integrated Iberian Peninsula and Morocco Energy System

A. Kanudia; N.A. Berghout; D. Boavida; M.A. van den Broek

doi:10.1016/j.egypro.2013.06.149

CCS Infrastructure Development Scenarios for the Integrated Iberian Peninsula and Morocco Energy System

A. Kanudia, N.A. Berghout, D. Boavida, M.A. van den Broek

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Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

This paper briefly illustrates a method to represent national energy systems and the geographical details of CCS infrastructures in the same technical-economic model. In the MARKAL-TIMES modeling framework a model of Morocco, Portugal and Spain with both spatial and temporal details has been implemented. As a function of assumptions on the development to 2050 of mitigation levels, economic growth and CO2 capture-transport storage characteristics, dozens of scenarios were prepared with the TIMES-COMET model. A few results on optimal levels of CCS contribution to mitigation compared to other energy system options are presented. The results also indicate the least cost lay out of the main capture, transport and storage infrastructures. It is concluded that the availability of CCS after 2020 will reduce the cost of mitigation in the Iberian Peninsula as soon as the EU GHG emissions reduction targets become more stringent than decided so far.

Original language	English
Title of host publication	Energy Procedia
Pages	2645-2656
Number of pages	12
DOIs	https://doi.org/10.1016/j.egypro.2013.06.149
Publication status	Published - 2013

Keywords

Energy scenarios
climate change mitigation
CO2 emissions
capture transport storage infrastructures
MARKAL- TIMES
partial economic equilibrium
bottom-up technological models
GIS transport models

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "CCS Infrastructure Development Scenarios for the Integrated Iberian Peninsula and Morocco Energy System",

abstract = "This paper briefly illustrates a method to represent national energy systems and the geographical details of CCS infrastructures in the same technical-economic model. In the MARKAL-TIMES modeling framework a model of Morocco, Portugal and Spain with both spatial and temporal details has been implemented. As a function of assumptions on the development to 2050 of mitigation levels, economic growth and CO2 capture-transport storage characteristics, dozens of scenarios were prepared with the TIMES-COMET model. A few results on optimal levels of CCS contribution to mitigation compared to other energy system options are presented. The results also indicate the least cost lay out of the main capture, transport and storage infrastructures. It is concluded that the availability of CCS after 2020 will reduce the cost of mitigation in the Iberian Peninsula as soon as the EU GHG emissions reduction targets become more stringent than decided so far.",

keywords = "Energy scenarios, climate change mitigation, CO2 emissions, capture transport storage infrastructures, MARKAL- TIMES, partial economic equilibrium, bottom-up technological models, GIS transport models",

author = "A. Kanudia and N.A. Berghout and D. Boavida and {van den Broek}, M.A.",

year = "2013",

doi = "10.1016/j.egypro.2013.06.149",

language = "English",

pages = "2645--2656",

booktitle = "Energy Procedia",

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TY - GEN

T1 - CCS Infrastructure Development Scenarios for the Integrated Iberian Peninsula and Morocco Energy System

AU - Kanudia, A.

AU - Berghout, N.A.

AU - Boavida, D.

AU - van den Broek, M.A.

PY - 2013

Y1 - 2013

N2 - This paper briefly illustrates a method to represent national energy systems and the geographical details of CCS infrastructures in the same technical-economic model. In the MARKAL-TIMES modeling framework a model of Morocco, Portugal and Spain with both spatial and temporal details has been implemented. As a function of assumptions on the development to 2050 of mitigation levels, economic growth and CO2 capture-transport storage characteristics, dozens of scenarios were prepared with the TIMES-COMET model. A few results on optimal levels of CCS contribution to mitigation compared to other energy system options are presented. The results also indicate the least cost lay out of the main capture, transport and storage infrastructures. It is concluded that the availability of CCS after 2020 will reduce the cost of mitigation in the Iberian Peninsula as soon as the EU GHG emissions reduction targets become more stringent than decided so far.

AB - This paper briefly illustrates a method to represent national energy systems and the geographical details of CCS infrastructures in the same technical-economic model. In the MARKAL-TIMES modeling framework a model of Morocco, Portugal and Spain with both spatial and temporal details has been implemented. As a function of assumptions on the development to 2050 of mitigation levels, economic growth and CO2 capture-transport storage characteristics, dozens of scenarios were prepared with the TIMES-COMET model. A few results on optimal levels of CCS contribution to mitigation compared to other energy system options are presented. The results also indicate the least cost lay out of the main capture, transport and storage infrastructures. It is concluded that the availability of CCS after 2020 will reduce the cost of mitigation in the Iberian Peninsula as soon as the EU GHG emissions reduction targets become more stringent than decided so far.

KW - Energy scenarios

KW - climate change mitigation

KW - CO2 emissions

KW - capture transport storage infrastructures

KW - MARKAL- TIMES

KW - partial economic equilibrium

KW - bottom-up technological models

KW - GIS transport models

U2 - 10.1016/j.egypro.2013.06.149

DO - 10.1016/j.egypro.2013.06.149

M3 - Conference contribution

SP - 2645

EP - 2656

BT - Energy Procedia

ER -

CCS Infrastructure Development Scenarios for the Integrated Iberian Peninsula and Morocco Energy System

Abstract

Keywords

UN SDGs

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