TY - JOUR
T1 - Ex-ante environmental assessments of novel technologies - Improved caprolactam catalysis and hydrogen storage
AU - Roes, A.L.
AU - Patel, M.K.
PY - 2011
Y1 - 2011
N2 - Utrecht University has conducted a pilot sustainability assessment for the executive board of the
chemistry program ACTS (Advanced Chemical Technologies for Sustainability) of the Netherlands’
Organization for Scientific Research (NWO). These assessments represent prospective, i.e. ’ex-ante’
studies on the production of caprolactam by an improved catalyst and on different hydrogen storage
options (i.e. compressed and liquefied hydrogen, storage in metal hydrides and storage in a metal organic
framework). The pilot sustainability assessments followed the principles of environmental life cycle
assessment (LCA), thereby focusing on non-renewable energy use (NREU) and climate change (GWP100).
It was found that caprolactam with the novel catalyst has lower impacts than petrochemical caprolactam
production from benzene but higher impacts than bio-based caprolactam produced via fermentation.
Regarding hydrogen storage, it was found that compressed and liquid hydrogen have the highest
impacts. The impacts of the metal hydrides and the metal organic frameworks show by far the lowest
environmental impacts. The main reason is that these materials can be reused up to 1500 times (refilling
of tank), while for compressing and liquefaction of hydrogen energy is needed each time a tank needs to
be refilled. The study demonstrates the successful application of ex-ante technology assessment.
AB - Utrecht University has conducted a pilot sustainability assessment for the executive board of the
chemistry program ACTS (Advanced Chemical Technologies for Sustainability) of the Netherlands’
Organization for Scientific Research (NWO). These assessments represent prospective, i.e. ’ex-ante’
studies on the production of caprolactam by an improved catalyst and on different hydrogen storage
options (i.e. compressed and liquefied hydrogen, storage in metal hydrides and storage in a metal organic
framework). The pilot sustainability assessments followed the principles of environmental life cycle
assessment (LCA), thereby focusing on non-renewable energy use (NREU) and climate change (GWP100).
It was found that caprolactam with the novel catalyst has lower impacts than petrochemical caprolactam
production from benzene but higher impacts than bio-based caprolactam produced via fermentation.
Regarding hydrogen storage, it was found that compressed and liquid hydrogen have the highest
impacts. The impacts of the metal hydrides and the metal organic frameworks show by far the lowest
environmental impacts. The main reason is that these materials can be reused up to 1500 times (refilling
of tank), while for compressing and liquefaction of hydrogen energy is needed each time a tank needs to
be refilled. The study demonstrates the successful application of ex-ante technology assessment.
U2 - 10.1016/j.jclepro.2011.05.010
DO - 10.1016/j.jclepro.2011.05.010
M3 - Article
SN - 0959-6526
VL - 19
SP - 1659
EP - 1667
JO - Journal of Cleaner Production
JF - Journal of Cleaner Production
IS - 14
ER -