Ghent University Academic Bibliography

Advanced

Nutrient recycling from bio-digestion waste as green fertilizers

Céline Vaneeckhaute UGent, Evi Michels UGent, Filip Tack UGent and Erik Meers UGent (2012) Applied Biological Sciences, 17th PhD Symposium, Posters.
abstract
In the transition from a fossil to a bio-based economy, it has become an important challenge to maximally recuperate valuable nutrients coming from waste streams. Nutrient resources are rapidly depleting, significant amounts of fossil energy are used for the production of chemical fertilizers, whereas costs for energy and fertilizers are increasing. In the meantime, biogas production through anaerobic digestion produces nutrient-rich digestates. In high-nutrient regions, these products cannot or only sparingly be returned to agricultural land in its crude unprocessed form. The consequent processing of this digestate requires a variety of technologies producing a lot of different derivatives, which could potentially be re-used as green fertilizers in agriculture. As such, a sustainable alternative for fossil-based mineral fertilizers could be provided. The aim of this study is to characterize the physicochemical properties of digestates and derivatives, in order to identify the fertilizer value and potential bottlenecks for agricultural re-use of these products, in line with European legislative constraints. In addition, the economic and ecological benefits of substituting conventional fertilizers by digestates and derivatives are quantified and evaluated. Waste water from acidic air scrubbers for ammonia removal shows potential as N-S-fertilizer, whereas concentrates resulting from membrane filtrated liquid fraction of digestate show promise as N-K-fertilizer. Substituting artificial fertilizers by air scrubber water or membrane filtration concentrates theoretically always results in significant economic and ecological benefits for the agriculturist. Field research is now on-going in order to evaluate the impact on soil and crop production by application of these new green fertilizers.
Please use this url to cite or link to this publication:
author
organization
year
type
conference
publication status
published
subject
keyword
nutrient recycling, green fertilizers, sustainable agriculture, anaerobic digestion, cradle-to-cradle, digestate processing
in
Applied Biological Sciences, 17th PhD Symposium, Posters
conference name
17th PhD Symposium on Applied Biological Sciences
conference location
Leuven, Belgium
conference start
2012-02-10
conference end
2012-02-10
project
Interreg Arbor, MIP Nutricycle
language
English
UGent publication?
yes
classification
C3
copyright statement
I have retained and own the full copyright for this publication
id
2033361
handle
http://hdl.handle.net/1854/LU-2033361
date created
2012-02-15 11:34:28
date last changed
2012-03-15 16:34:24
@inproceedings{2033361,
  abstract     = {In the transition from a fossil to a bio-based economy, it has become an important challenge to maximally recuperate valuable nutrients coming from waste streams. Nutrient resources are rapidly depleting, significant amounts of fossil energy are used for the production of chemical fertilizers, whereas costs for energy and fertilizers are increasing. In the meantime, biogas production through anaerobic digestion produces nutrient-rich digestates. In high-nutrient regions, these products cannot or only sparingly be returned to agricultural land in its crude unprocessed form. The consequent processing of this digestate requires a variety of technologies producing a lot of different derivatives, which could potentially be re-used as green fertilizers in agriculture. As such, a sustainable alternative for fossil-based mineral fertilizers could be provided. The aim of this study is to characterize the physicochemical properties of digestates and derivatives, in order to identify the fertilizer value and potential bottlenecks for agricultural re-use of these products, in line with European legislative constraints. In addition, the economic and ecological benefits of substituting conventional fertilizers by digestates and derivatives are quantified and evaluated. Waste water from acidic air scrubbers for ammonia removal shows potential as N-S-fertilizer, whereas concentrates resulting from membrane filtrated liquid fraction of digestate show promise as N-K-fertilizer. Substituting artificial fertilizers by air scrubber water or membrane filtration concentrates theoretically always results in significant economic and ecological benefits for the agriculturist. Field research is now on-going in order to evaluate the impact on soil and crop production by application of these new green fertilizers.},
  author       = {Vaneeckhaute, C{\'e}line and Michels, Evi and Tack, Filip and Meers, Erik},
  booktitle    = {Applied Biological Sciences, 17th PhD Symposium, Posters},
  keyword      = {nutrient recycling,green fertilizers,sustainable agriculture,anaerobic digestion,cradle-to-cradle,digestate processing},
  language     = {eng},
  location     = {Leuven, Belgium},
  title        = {Nutrient recycling from bio-digestion waste as green fertilizers},
  year         = {2012},
}

Chicago
Vaneeckhaute, Céline, Evi Michels, Filip Tack, and Erik Meers. 2012. “Nutrient Recycling from Bio-digestion Waste as Green Fertilizers.” In Applied Biological Sciences, 17th PhD Symposium, Posters.
APA
Vaneeckhaute, C., Michels, E., Tack, F., & Meers, E. (2012). Nutrient recycling from bio-digestion waste as green fertilizers. Applied Biological Sciences, 17th PhD Symposium, Posters. Presented at the 17th PhD Symposium on Applied Biological Sciences.
Vancouver
1.
Vaneeckhaute C, Michels E, Tack F, Meers E. Nutrient recycling from bio-digestion waste as green fertilizers. Applied Biological Sciences, 17th PhD Symposium, Posters. 2012.
MLA
Vaneeckhaute, Céline, Evi Michels, Filip Tack, et al. “Nutrient Recycling from Bio-digestion Waste as Green Fertilizers.” Applied Biological Sciences, 17th PhD Symposium, Posters. 2012. Print.