Cultivating Ciona intestinalis to counteract marine eutrophication: Environmental assessment of a marine biomass based bioenergy and biofertilizer production system
Artikel i vetenskaplig tidskrift, 2018

Eutrophication in the North and Baltic Seas is a major problem to the marine environment and the communities depending on it. To counteract this, the Swedish Marine and Water Authority suggested financial support for measures that increase the uptake of nutrients from the water by e.g. marine organisms and support for the utilisation of these organisms as value added products. In Sweden the use of biogas to replace fossil transportation fuels is widely adopted. The domestic biogas production corresponded to approx. 1.95 TWh (approx. 7010 TJ) in 2015 of which approx. 63% were upgraded for use as e.g. transportation fuel. Other uses are heat and electricity generation as well as industrial applications. To expand production, the biogas industry is searching for new substrates. In this paper the utilisation of the marine evertebrate organism Ciona intestinalis (tunicata), cultivated in the North Sea and used as feedstock for biogas and biofertilizer production is suggested and assessed. The greenhouse gas (GHG) emissions performance of the concept and it's consequences on marine eutrophication are investigated applying life cycle assessment. Results show that at full scale biogas production from C. intestinalis reduces GHG emissions by more than 65% compared to fossil transportation fuels. In addition, the results show that accounting for the system consequences of other products and services such as biofertilizer replacing mineral fertilizers and decreased marine eutrophication largely increase the environmental benefits provided by the concept. Approx. 3.7 g-N eq /MJ biogas of nitrogen are removed from the marine environment during the cultivation of C. intestinalis.

Renewable energy

Biogas

Bioenergy

Marine biomass

Eutrophication

Biofertilizer

Författare

Roman Hackl

IVL Svenska Miljöinstitutet AB

Julia Hansson

Chalmers, Rymd-, geo- och miljövetenskap, Fysisk resursteori

Fredrik Norén

N-research

Olle Stenberg

Marine Biogas

Mikael Olshammar

IVL Svenska Miljöinstitutet AB

Renewable Energy

0960-1481 (ISSN)

Vol. 124 103-113

Ämneskategorier

Förnyelsebar bioenergi

Annan naturresursteknik

Energisystem

DOI

10.1016/j.renene.2017.07.053

Mer information

Senast uppdaterat

2018-05-09