ECN part of TNO: Home

Recent verschenen

per documenttype

ECN rapport

Boek(hoofdstuk)

Artikel vakblad

Artikel wetenschap tijdschrift

2018

2017

2016

2015

2014

2013

2012

2011

2010

2009

2008

2007

2006

2005

2004

2003

2002

2001

2000

1999

1998

1997

1995

Conferentiebijdrage

Presentatie

Overig

Externe notitie

Brochure

per Unit

per Cluster

Zoeken naar publicaties:
Beperk het zoeken tot de velden: Titel/Samenvatting
Publicatienummer
Auteur

ECN publicatie:

Titel:
Cost evaluation of CO2 sequestration by aqueous mineral carbonation
Auteur(s):
Huijgen, W.J.J.; Witkamp, G.J.; Comans, R.N.J.
Gepubliceerd door:	Publicatie datum:
ECN Biomassa, Kolen en Milieuonderzoek	7-5-2007
ECN publicatienummer:	Publicatie type:
ECN-W--07-014	Artikel wetenschap tijdschrift
Aantal pagina's:
13

Gepubliceerd in: Energy Conversion and Management (Elsevier), , 2007, Vol.48, p.1923-1935.

Samenvatting:
A cost evaluation of CO2 sequestration by aqueous mineral carbonation has been made using either wollastonite (CaSiO3) or steel slag as feedstock. First, the process was simulated to determine the properties of the streams as well as the power and heat consumption of the process equipment. Second, a basic design was made for the major process equipment, and total investment costs were estimated with the help of the publicly available literature and a factorial cost estimation method. Finally, the sequestration costs were determined on the basis of the depreciation of investments and variable and fixed operating costs. Estimated costs are 102 and 77 €/ton CO2 net avoided for wollastonite and steel slag, respectively. For wollastonite, the major costs are associated with the feedstock and the electricity consumption for grinding and compression (54 and 26 €/ton CO2 avoided, respectively). A sensitivity analysis showed that additional influential parameters in the sequestration costs include the liquid-to-solid ratio in the carbonation reactor and the possible value of the carbonated product. The sequestration costs for steel slag are significantly lower due to the absence of costs for the feedstock. Although various options for potential cost reduction have been identified, CO2 sequestration by current aqueous carbonation processes seems expensive relative to other CO2 storage technologies. The permanent and inherently safe sequestration of CO2 by mineral carbonation may justify higher costs, but further cost reductions are required, particularly in view of (current) prices of CO2 emission rights. Niche applications of mineral carbonation with a solid residue such as steel slag as feedstock and/or a useful carbonated product hold the best prospects for an economically feasible CO2 sequestration process.

Terug naar overzicht.