A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development

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Zeitschriftentitel:	Energies
Personen und Körperschaften:	Szymańska, Magdalena, Szara, Ewa, Sosulski, Tomasz, Wąs, Adam, Van Pruissen, Gijs W. P., Cornelissen, René L., Borowik, Mieczysław, Konkol, Marcin
In:	Energies, 12, 2019, 1, S. 155
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	MDPI AG
Schlagwörter:	Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous)

author_facet	Szymańska, Magdalena Szara, Ewa Sosulski, Tomasz Wąs, Adam Van Pruissen, Gijs W. P. Cornelissen, René L. Borowik, Mieczysław Konkol, Marcin Szymańska, Magdalena Szara, Ewa Sosulski, Tomasz Wąs, Adam Van Pruissen, Gijs W. P. Cornelissen, René L. Borowik, Mieczysław Konkol, Marcin
author	Szymańska, Magdalena Szara, Ewa Sosulski, Tomasz Wąs, Adam Van Pruissen, Gijs W. P. Cornelissen, René L. Borowik, Mieczysław Konkol, Marcin
spellingShingle	Szymańska, Magdalena Szara, Ewa Sosulski, Tomasz Wąs, Adam Van Pruissen, Gijs W. P. Cornelissen, René L. Borowik, Mieczysław Konkol, Marcin Energies A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous)
author_sort	szymańska, magdalena
spelling	Szymańska, Magdalena Szara, Ewa Sosulski, Tomasz Wąs, Adam Van Pruissen, Gijs W. P. Cornelissen, René L. Borowik, Mieczysław Konkol, Marcin 1996-1073 MDPI AG Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous) http://dx.doi.org/10.3390/en12010155 <jats:p>Biogas is an alternative source of energy for fossil fuels. In the process of transforming organic materials into biogas significant amounts of valuable digestate are produced. In order to make the whole process sustainable digestate should be utilized this is a constraining factor in the development of the biogas industry. Consequently, there is an on-going search for new technologies to process digestate, allowing to broaden the range of possible ways of digestate utilization. One of such possibilities is technology of nitrogen (N) and phosphorus (P) recovery from the anaerobic digestate. In this study results of physicochemical analysis of materials flowing through the farm-scale bio-refinery producing struvite (STR) and ammonium sulphate (AS) are presented. Struvite was precipitated from the liquid fraction of digestate (LFDS). Ammonia was bound by sulphuric acid resulting in obtaining ammonium sulphate. The STR obtained was of medium purity and contained other macronutrients and micronutrients that further enhanced its agronomic value. The P recovery effectiveness, counted as the difference between the Ptot content in the material before and after STR precipitation was 43.8%. The AS was characterized by relatively low Ntot and Stot content. The Ntot recovery efficiency reached 43.2%. The study showed that struvite precipitation and ammonia stripping technologies can be used for processing digestate however, the processes efficiency should be improved.</jats:p> A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development Energies
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title	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_unstemmed	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_full	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_fullStr	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_full_unstemmed	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_short	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_sort	a bio-refinery concept for n and p recovery—a chance for biogas plant development
topic	Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous)
url	http://dx.doi.org/10.3390/en12010155
publishDate	2019
physical	155
description	<jats:p>Biogas is an alternative source of energy for fossil fuels. In the process of transforming organic materials into biogas significant amounts of valuable digestate are produced. In order to make the whole process sustainable digestate should be utilized this is a constraining factor in the development of the biogas industry. Consequently, there is an on-going search for new technologies to process digestate, allowing to broaden the range of possible ways of digestate utilization. One of such possibilities is technology of nitrogen (N) and phosphorus (P) recovery from the anaerobic digestate. In this study results of physicochemical analysis of materials flowing through the farm-scale bio-refinery producing struvite (STR) and ammonium sulphate (AS) are presented. Struvite was precipitated from the liquid fraction of digestate (LFDS). Ammonia was bound by sulphuric acid resulting in obtaining ammonium sulphate. The STR obtained was of medium purity and contained other macronutrients and micronutrients that further enhanced its agronomic value. The P recovery effectiveness, counted as the difference between the Ptot content in the material before and after STR precipitation was 43.8%. The AS was characterized by relatively low Ntot and Stot content. The Ntot recovery efficiency reached 43.2%. The study showed that struvite precipitation and ammonia stripping technologies can be used for processing digestate however, the processes efficiency should be improved.</jats:p>
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author	Szymańska, Magdalena, Szara, Ewa, Sosulski, Tomasz, Wąs, Adam, Van Pruissen, Gijs W. P., Cornelissen, René L., Borowik, Mieczysław, Konkol, Marcin
author_facet	Szymańska, Magdalena, Szara, Ewa, Sosulski, Tomasz, Wąs, Adam, Van Pruissen, Gijs W. P., Cornelissen, René L., Borowik, Mieczysław, Konkol, Marcin, Szymańska, Magdalena, Szara, Ewa, Sosulski, Tomasz, Wąs, Adam, Van Pruissen, Gijs W. P., Cornelissen, René L., Borowik, Mieczysław, Konkol, Marcin
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description	<jats:p>Biogas is an alternative source of energy for fossil fuels. In the process of transforming organic materials into biogas significant amounts of valuable digestate are produced. In order to make the whole process sustainable digestate should be utilized this is a constraining factor in the development of the biogas industry. Consequently, there is an on-going search for new technologies to process digestate, allowing to broaden the range of possible ways of digestate utilization. One of such possibilities is technology of nitrogen (N) and phosphorus (P) recovery from the anaerobic digestate. In this study results of physicochemical analysis of materials flowing through the farm-scale bio-refinery producing struvite (STR) and ammonium sulphate (AS) are presented. Struvite was precipitated from the liquid fraction of digestate (LFDS). Ammonia was bound by sulphuric acid resulting in obtaining ammonium sulphate. The STR obtained was of medium purity and contained other macronutrients and micronutrients that further enhanced its agronomic value. The P recovery effectiveness, counted as the difference between the Ptot content in the material before and after STR precipitation was 43.8%. The AS was characterized by relatively low Ntot and Stot content. The Ntot recovery efficiency reached 43.2%. The study showed that struvite precipitation and ammonia stripping technologies can be used for processing digestate however, the processes efficiency should be improved.</jats:p>
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spelling	Szymańska, Magdalena Szara, Ewa Sosulski, Tomasz Wąs, Adam Van Pruissen, Gijs W. P. Cornelissen, René L. Borowik, Mieczysław Konkol, Marcin 1996-1073 MDPI AG Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous) http://dx.doi.org/10.3390/en12010155 <jats:p>Biogas is an alternative source of energy for fossil fuels. In the process of transforming organic materials into biogas significant amounts of valuable digestate are produced. In order to make the whole process sustainable digestate should be utilized this is a constraining factor in the development of the biogas industry. Consequently, there is an on-going search for new technologies to process digestate, allowing to broaden the range of possible ways of digestate utilization. One of such possibilities is technology of nitrogen (N) and phosphorus (P) recovery from the anaerobic digestate. In this study results of physicochemical analysis of materials flowing through the farm-scale bio-refinery producing struvite (STR) and ammonium sulphate (AS) are presented. Struvite was precipitated from the liquid fraction of digestate (LFDS). Ammonia was bound by sulphuric acid resulting in obtaining ammonium sulphate. The STR obtained was of medium purity and contained other macronutrients and micronutrients that further enhanced its agronomic value. The P recovery effectiveness, counted as the difference between the Ptot content in the material before and after STR precipitation was 43.8%. The AS was characterized by relatively low Ntot and Stot content. The Ntot recovery efficiency reached 43.2%. The study showed that struvite precipitation and ammonia stripping technologies can be used for processing digestate however, the processes efficiency should be improved.</jats:p> A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development Energies
spellingShingle	Szymańska, Magdalena, Szara, Ewa, Sosulski, Tomasz, Wąs, Adam, Van Pruissen, Gijs W. P., Cornelissen, René L., Borowik, Mieczysław, Konkol, Marcin, Energies, A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development, Energy (miscellaneous), Energy Engineering and Power Technology, Renewable Energy, Sustainability and the Environment, Electrical and Electronic Engineering, Control and Optimization, Engineering (miscellaneous)
title	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_full	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_fullStr	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_full_unstemmed	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_short	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
title_sort	a bio-refinery concept for n and p recovery—a chance for biogas plant development
title_unstemmed	A Bio-Refinery Concept for N and P Recovery—A Chance for Biogas Plant Development
topic	Energy (miscellaneous), Energy Engineering and Power Technology, Renewable Energy, Sustainability and the Environment, Electrical and Electronic Engineering, Control and Optimization, Engineering (miscellaneous)
url	http://dx.doi.org/10.3390/en12010155