Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors

Department of Food and Resource Economics (IFRO)

Research output: Chapter in Book/Report/Conference proceeding › Conference abstract in proceedings › Research

Standard

Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors. / Plauborg, Finn; Skjødt, Maja H. ; Jéglot, Arnaud; Audet, Joachim; Hoffmann, Carl C.; Jacobsen, Brian H.

Proceedings of the XXI International Nitrogen Workshop: Halving nitrogen waste by 2030. ed. / Luis Lassaletta; Alberto Sanz Cobeña; Corentin Pinsard; Sofía Garde Cabellos. Universidad Politécnica de Madrid, 2022. p. 258.

Research output: Chapter in Book/Report/Conference proceeding › Conference abstract in proceedings › Research

Harvard

Plauborg, F, Skjødt, MH, Jéglot, A, Audet, J, Hoffmann, CC & Jacobsen, BH 2022, Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors. in L Lassaletta, A Sanz Cobeña, C Pinsard & S Garde Cabellos (eds), Proceedings of the XXI International Nitrogen Workshop: Halving nitrogen waste by 2030. Universidad Politécnica de Madrid, pp. 258, N-workshop, Madrid, Spain, 24/10/2022.

APA

Plauborg, F., Skjødt, M. H., Jéglot, A., Audet, J., Hoffmann, C. C., & Jacobsen, B. H. (2022). Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors. In L. Lassaletta, A. Sanz Cobeña, C. Pinsard, & S. Garde Cabellos (Eds.), Proceedings of the XXI International Nitrogen Workshop: Halving nitrogen waste by 2030 (pp. 258). Universidad Politécnica de Madrid.

Vancouver

Plauborg F, Skjødt MH, Jéglot A, Audet J, Hoffmann CC, Jacobsen BH. Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors. In Lassaletta L, Sanz Cobeña A, Pinsard C, Garde Cabellos S, editors, Proceedings of the XXI International Nitrogen Workshop: Halving nitrogen waste by 2030. Universidad Politécnica de Madrid. 2022. p. 258

Author

Plauborg, Finn ; Skjødt, Maja H. ; Jéglot, Arnaud ; Audet, Joachim ; Hoffmann, Carl C. ; Jacobsen, Brian H. / Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors. Proceedings of the XXI International Nitrogen Workshop: Halving nitrogen waste by 2030. editor / Luis Lassaletta ; Alberto Sanz Cobeña ; Corentin Pinsard ; Sofía Garde Cabellos. Universidad Politécnica de Madrid, 2022. pp. 258

Bibtex

@inbook{1a95c5226bcd4a228dbf53c568f21fba,

title = "Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors",

abstract = "Agricultural production is a major source of diffuse pollution, which in Europe, mostly is due to excessive emissions of nutrients (nitrogen (N) and phosphorus (P)). N removal from agricultural drainage water in woodchips bioreactors is relatively well established, however, Addy et al. (2016) concluded in a meta-analysis, that more field-based studies of the performance of woodchip bioreactors are needed to determine removal rates in different landscapes, nitrate loading, and climate. Hence, the main objectives of the present study were to i) present results on N and phosphorus (P) removal in five field-based woodchips bioreactor facilities receiving agricultural drainage water and located in different geo-regions in Denmark and ii) to present the results of a cost-effectiveness analysis iii) further, to assess from experiments in a novel woodchip bioreactor test center at which hydraulic residence time (HRT) with winter cold water resulted in the most efficient N removal. Two years data from the five field based bioreactors showed N removal rates varying from 1.49 to 5.37 g N m-3 d-1 and a mean across all bioreactors and years of 2.90 g N m-3 d-1. The loss of phosphorus was relatively high the first year after establishment varying at rates from 298.4 to 890.8 mg P m-3 d-1. However, in the second year most bioreactors retained phosphorus at rates varying from 12.2 to 77.2 mg P m-3 d-1. The investments and the costs of the bioreactors were larger than expected based on the standard investments for bioreactors used in Denmark. The cost efficiency analysis pointed to larger investments in the bioreactor itself as well as more advisory costs as key issues. The N removal cost for the four bioreactors considered in this study was around 350 DKK per kg N (€47 per kg N) which is higher (+50%) than the standard cost per kg N used by Danish authorities. From several investigations in a novel woodchips bioreactor test center with a water temperature of 5 °C and an inlet concentration of 60 mg nitrate per liter, the maximal nitrate reduction rate was found at HRTs of 20-30 h. Further studies needs to be done under controlled environments to assess the most efficient design of woodchip bioreactors under varying drainage water temperatures and flows, and as well how to retain the initial release of phosphorus.",

author = "Finn Plauborg and Skj{\o}dt, {Maja H.} and Arnaud J{\'e}glot and Joachim Audet and Hoffmann, {Carl C.} and Jacobsen, {Brian H.}",

year = "2022",

language = "English",

isbn = "978-84-122114-6-7",

pages = "258",

editor = "Luis Lassaletta and {Sanz Cobe{\~n}a}, Alberto and Corentin Pinsard and {Garde Cabellos}, Sof{\'i}a",

booktitle = "Proceedings of the XXI International Nitrogen Workshop",

publisher = "Universidad Polit{\'e}cnica de Madrid",

note = "null ; Conference date: 24-10-2022 Through 28-10-2022",

url = "https://nworkshop.org/",

}

RIS

TY - ABST

T1 - Results from a novel woodchips bioreactor test center may improve the performance of field-based woodchips bioreactors

AU - Plauborg, Finn

AU - Skjødt, Maja H.

AU - Jéglot, Arnaud

AU - Audet, Joachim

AU - Hoffmann, Carl C.

AU - Jacobsen, Brian H.

N1 - Conference code: 21

PY - 2022

Y1 - 2022

N2 - Agricultural production is a major source of diffuse pollution, which in Europe, mostly is due to excessive emissions of nutrients (nitrogen (N) and phosphorus (P)). N removal from agricultural drainage water in woodchips bioreactors is relatively well established, however, Addy et al. (2016) concluded in a meta-analysis, that more field-based studies of the performance of woodchip bioreactors are needed to determine removal rates in different landscapes, nitrate loading, and climate. Hence, the main objectives of the present study were to i) present results on N and phosphorus (P) removal in five field-based woodchips bioreactor facilities receiving agricultural drainage water and located in different geo-regions in Denmark and ii) to present the results of a cost-effectiveness analysis iii) further, to assess from experiments in a novel woodchip bioreactor test center at which hydraulic residence time (HRT) with winter cold water resulted in the most efficient N removal. Two years data from the five field based bioreactors showed N removal rates varying from 1.49 to 5.37 g N m-3 d-1 and a mean across all bioreactors and years of 2.90 g N m-3 d-1. The loss of phosphorus was relatively high the first year after establishment varying at rates from 298.4 to 890.8 mg P m-3 d-1. However, in the second year most bioreactors retained phosphorus at rates varying from 12.2 to 77.2 mg P m-3 d-1. The investments and the costs of the bioreactors were larger than expected based on the standard investments for bioreactors used in Denmark. The cost efficiency analysis pointed to larger investments in the bioreactor itself as well as more advisory costs as key issues. The N removal cost for the four bioreactors considered in this study was around 350 DKK per kg N (€47 per kg N) which is higher (+50%) than the standard cost per kg N used by Danish authorities. From several investigations in a novel woodchips bioreactor test center with a water temperature of 5 °C and an inlet concentration of 60 mg nitrate per liter, the maximal nitrate reduction rate was found at HRTs of 20-30 h. Further studies needs to be done under controlled environments to assess the most efficient design of woodchip bioreactors under varying drainage water temperatures and flows, and as well how to retain the initial release of phosphorus.

AB - Agricultural production is a major source of diffuse pollution, which in Europe, mostly is due to excessive emissions of nutrients (nitrogen (N) and phosphorus (P)). N removal from agricultural drainage water in woodchips bioreactors is relatively well established, however, Addy et al. (2016) concluded in a meta-analysis, that more field-based studies of the performance of woodchip bioreactors are needed to determine removal rates in different landscapes, nitrate loading, and climate. Hence, the main objectives of the present study were to i) present results on N and phosphorus (P) removal in five field-based woodchips bioreactor facilities receiving agricultural drainage water and located in different geo-regions in Denmark and ii) to present the results of a cost-effectiveness analysis iii) further, to assess from experiments in a novel woodchip bioreactor test center at which hydraulic residence time (HRT) with winter cold water resulted in the most efficient N removal. Two years data from the five field based bioreactors showed N removal rates varying from 1.49 to 5.37 g N m-3 d-1 and a mean across all bioreactors and years of 2.90 g N m-3 d-1. The loss of phosphorus was relatively high the first year after establishment varying at rates from 298.4 to 890.8 mg P m-3 d-1. However, in the second year most bioreactors retained phosphorus at rates varying from 12.2 to 77.2 mg P m-3 d-1. The investments and the costs of the bioreactors were larger than expected based on the standard investments for bioreactors used in Denmark. The cost efficiency analysis pointed to larger investments in the bioreactor itself as well as more advisory costs as key issues. The N removal cost for the four bioreactors considered in this study was around 350 DKK per kg N (€47 per kg N) which is higher (+50%) than the standard cost per kg N used by Danish authorities. From several investigations in a novel woodchips bioreactor test center with a water temperature of 5 °C and an inlet concentration of 60 mg nitrate per liter, the maximal nitrate reduction rate was found at HRTs of 20-30 h. Further studies needs to be done under controlled environments to assess the most efficient design of woodchip bioreactors under varying drainage water temperatures and flows, and as well how to retain the initial release of phosphorus.

M3 - Conference abstract in proceedings

SN - 978-84-122114-6-7

SP - 258

BT - Proceedings of the XXI International Nitrogen Workshop

A2 - Lassaletta, Luis

A2 - Sanz Cobeña, Alberto

A2 - Pinsard, Corentin

A2 - Garde Cabellos, Sofía

PB - Universidad Politécnica de Madrid

Y2 - 24 October 2022 through 28 October 2022

ER -

ID: 326352206