author={Berend Smit and Jeffrey A. Reimer and Curtis M. Oldenburg and Ian C. Bourg},
The aim of the book is to provide an understanding of the current science underpinning Carbon Capture and Sequestration (CCS) and to provide students and interested researchers with sufficient background on the basics of Chemical Engineering, Material Science, and Geology that they can understand the current state of the art of the research in the field of CCS. In addition, the book provides a comprehensive discussion of the impact of CCS on the energy landscape, society, and climate as these… 
Recent Advances in Carbon Capture with Metal-Organic Frameworks.
Recent advances related to the synthesis of porous MOFs and the latest strategies to enhance the CO(2) adsorption enthalpies and capacities at low-pressures, increase hydrolytic and mechanical stabilities, and improve the ease of regeneration are summarized.
A Review of Pathways to Carbon Neutrality from Renewable Energy and Carbon Capture
The greenhouse gas represented by carbon dioxide is having a negative impact on the earth's ecology. The goal of carbon neutrality is to reduce carbon emissions to zero through complete elimination
Computational carbon capture
  • B. Smit
  • Computer Science, Engineering
  • 2014
This presentation describes how computational techniques can be used to screen novel materials for carbon capture and introduces the concept of parasitic energy as a metric to compare different materials.
Carbon Capture and Storage: introductory lecture.
  • B. Smit
  • Computer Science, Medicine
    Faraday discussions
  • 2016
This brief review will discuss progress in different capture and storage technologies.
Cutting the cost of carbon capture: a case for carbon capture and utilization.
This manuscript investigates how much the parasitic energy of an adsorbent-based carbon capture process may be lowered by utilizing CO2 at 1 bar and adapting the final purity requirement for CO2 from 99% to 70% or 50% and evaluates the carbon capture performance of over 60 nanoporous materials.
The water footprint of carbon capture and storage technologies
Abstract Carbon capture and sequestration (CCS) is an important technology to reduce fossil CO2 emissions and remove CO2 from the atmosphere. Scenarios for CCS deployment consistent with global
Evaluating different classes of porous materials for carbon capture
Carbon Capture and Sequestration (CCS) is one of the promising ways to significantly reduce the CO2 emission from power plants. In particular, amongst several separation strategies, adsorption by
Hydrological limits to carbon capture and storage
Carbon capture and storage (CCS) is a strategy to mitigate climate change by limiting CO 2 emissions from point sources such as coal-fired power plants (CFPPs). Although decision-makers are seeking
The Grand Challenges in Carbon Capture, Utilization, and Storage
1 Department of Chemical and Biomolecular Engineering, University of California Berkeley, Berkeley, CA, USA 2 Energy Center and Laboratory of Molecular Simulation, Institut des Sciences et Ingenierie
The Tasks of Climate Related Energy Ethics – The Example of Carbon Capture and Storage
Abstract In this article I try to show that climate ethics must be to a great extent risk and energy ethics. As the emissions of carbon dioxide have to be stopped completely in a relatively short


Introduction to Carbon Capture and Sequestration
The aim of the book is to provide an understanding of the current science underpinning Carbon Capture and Sequestration (CCS) and to provide students and interested researchers with sufficient
UFF) Loading (mol/kg) Pressure (mbar) DFT-derived FF Sim. (model 1) Sim. (model 2) Sim. (model 3) Sim. (model 4) CO 2 uptake
  • Dzubak et al.) Sim. (UFF) Loading (mol/kg) Pressure (mbar) Sim. (UFF) Sim. (DFT-derived, model B) Exp. (Schoenecker et al.) Exp. (Glover et al.) Exp. (Yang et al. (C)) Exp. (Yang et al. (S)) Loading (mol/kg) Pressure