Ferrous sludge from water clarification: Changes in waste
management practices advisable

MAROUŠEK, Josef, Vojtěch STEHEL, Marek VOCHOZKA, Ladislav KOLÁŘ, Anna MAROUŠKOVÁ, Otakar STRUNECKÝ, Jiří PETERKA, Marek KOPECKÝ and Sowmya SHREEDHAR. Ferrous sludge from water clarification: Changes in waste management practices advisable. Journal of Cleaner Production. England: Elsevier Ltd, 2019, vol. 218, 01.05.2019, p. 459-464. ISSN 0959-6526. Available from: https://dx.doi.org/10.1016/j.jclepro.2019.02.037.

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TY  - JOUR
ID  - 51761
AU  - Maroušek, Josef - Stehel, Vojtěch - Vochozka, Marek - Kolář, Ladislav - Maroušková, Anna - Strunecký, Otakar - Peterka, Jiří - Kopecký, Marek - Shreedhar, Sowmya
PY  - 2019
TI  - Ferrous sludge from water clarification: Changes in waste management practices advisable
JF  - Journal of Cleaner Production
VL  - 218
IS  - 01.05.2019
SP  - 459-464
EP  - 459-464
PB  - Elsevier Ltd
SN  - 09596526
KW  - Bioeconomy
KW  - Coagulation sludge
KW  - Flocculation
KW  - Phosphorus bioavailability
KW  - Process management
KW  - Water clarification
UR  - https://www.sciencedirect.com/science/article/pii/S095965261930410X?via%3Dihub
L2  - https://www.sciencedirect.com/science/article/pii/S095965261930410X?via%3Dihub
N2  - Clarification via floccules of ferric hydroxide is a globally leading technology in processing and treating surface water, and converting it into drinking water. The ferric–based coagulation sludge obtained is routinely dewatered and mixed with biowaste, assuming that the finest colloidal fractions of clay present will improve the cation–exchange capacity of the composts produced. However, in relation to the application of these types of compost, farmers repeatedly and independently of one another reported lower yields and crops suffering from phosphorus deficiency, even under proper phosphorus fertilization. A 5-year study revealed that the cation–exchange capacity tends to increase, which is beneficial over the long term. Nevertheless, the analyses performed revealed, for the first time, that this widespread practice lowers the level of mobile phosphorus, on average, by 62% and the level of extractable phosphorus by 55%. To make things worse, the quality of the extractable phosphorus declines, since the biologically available calcium, magnesium and aluminum based phosphates are gradually being replaced by ferric phosphates (originating from the ferric sludge). Given that phosphorus is the most expensive nutrient, this finding is of great environmental and economic importance, since the formation of ferric phosphates locks this most expensive nutrient into a form available neither to soil microbiota nor plants. It is recommended that new ways of using ferric–based coagulation sludge be developed.
ER  -

Basic information
Original name	Ferrous sludge from water clarification: Changes in waste management practices advisable
Name in Czech	Železný kal z čištění vody: Doporučujeme změny v postupech nakládání s odpady
Authors	MAROUŠEK, Josef (203 Czech Republic, guarantor, belonging to the institution), Vojtěch STEHEL (203 Czech Republic, belonging to the institution), Marek VOCHOZKA (203 Czech Republic, belonging to the institution), Ladislav KOLÁŘ (203 Czech Republic, belonging to the institution), Anna MAROUŠKOVÁ (268 Georgia, belonging to the institution), Otakar STRUNECKÝ (703 Slovakia, belonging to the institution), Jiří PETERKA (203 Czech Republic), Marek KOPECKÝ (203 Czech Republic) and Sowmya SHREEDHAR (356 India, belonging to the institution).
Edition	Journal of Cleaner Production, England, Elsevier Ltd, 2019, 0959-6526.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10511 Environmental sciences
Country of publisher	United Kingdom of Great Britain and Northern Ireland
Confidentiality degree	is not subject to a state or trade secret
WWW	URL
RIV identification code	RIV/75081431:_____/19:00001652
Organization unit	Institute of Technology and Business in České Budějovice
Doi	http://dx.doi.org/10.1016/j.jclepro.2019.02.037
UT WoS	000462110400042
Keywords (in Czech)	Bioekonomie; Koagulační kal; Flokulace; Biologická dostupnost fosforu; Řízení procesů; Čištění vody
Keywords in English	Bioeconomy; Coagulation sludge; Flocculation; Phosphorus bioavailability; Process management; Water clarification
Tags	CHS, RIV19, SCOPUS, WOS
Changed by	Changed by: Ing. Anna Palokha, učo 18083. Changed: 22/4/2020 15:10.

Abstract

Clarification via floccules of ferric hydroxide is a globally leading technology in processing and treating surface water, and converting it into drinking water. The ferric–based coagulation sludge obtained is routinely dewatered and mixed with biowaste, assuming that the finest colloidal fractions of clay present will improve the cation–exchange capacity of the composts produced. However, in relation to the application of these types of compost, farmers repeatedly and independently of one another reported lower yields and crops suffering from phosphorus deficiency, even under proper phosphorus fertilization. A 5-year study revealed that the cation–exchange capacity tends to increase, which is beneficial over the long term. Nevertheless, the analyses performed revealed, for the first time, that this widespread practice lowers the level of mobile phosphorus, on average, by 62% and the level of extractable phosphorus by 55%. To make things worse, the quality of the extractable phosphorus declines, since the biologically available calcium, magnesium and aluminum based phosphates are gradually being replaced by ferric phosphates (originating from the ferric sludge). Given that phosphorus is the most expensive nutrient, this finding is of great environmental and economic importance, since the formation of ferric phosphates locks this most expensive nutrient into a form available neither to soil microbiota nor plants. It is recommended that new ways of using ferric–based coagulation sludge be developed.

Abstract (in Czech)

Čištění pomocí vločkování hydroxidu železitého je celosvětově vedoucí technologií při zpracování a úpravě povrchové vody a její přeměně na pitnou vodu . Získaný koagulační kal na bázi železa je rutinně odvodňován a smíchán s biologickým odpadem za předpokladu, že nejlepší koloidní frakce jílu zlepší kationtově výměnnou kapacitu produkovaných kompostů. Nicméně, v souvislosti s aplikací těchto typů kompostu zemědělci opakovaně a nezávisle na sobě uváděli nižší výnosy a plodiny trpící nedostatkem fosforu, a to i při řádném hnojení fosforem. Pětiletá studie odhalila, že kapacita výměny kationtů má tendenci se zvyšovat, což je dlouhodobě prospěšné. Provedené analýzy nicméně poprvé odhalily, že tato rozšířená praxe snižuje hladinu mobilního fosforu v průměru o 62% a hladinu extrahovatelného fosforu o 55%. Co se ještě zhoršuje, kvalita extrahovatelného fosforu klesá, protože biologicky dostupné fosforečnany na bázi vápníku, hořčíku a hliníku se postupně nahrazují fosforečnany železité (pocházející z železitého kalu).). Vzhledem k tomu, že fosfor je nejdražší živinou, má toto zjištění velký environmentální a ekonomický význam, protože tvorba fosforečnanů železitých blokuje tuto nejdražší živinu do formy dostupné ani pro půdní mikrobiotu, ani pro rostliny. Doporučuje se vyvinout nové způsoby použití koagulačního kalu na bázi železa

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Ferrous sludge from water clarification: Changes in waste management practices advisable

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