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Judul Artikel llmiah Phosphate recovery through struvlte-family crystals precipitated In the presence of citric acid mineralogical phase and morphology evaluation
Penulis Artikel llmiah ldentitas Jurnal llmlah
Perwitasari o S,Edahwati L, Sutiyono s, Muryanto s. Jamari, J.,Bavuseno AP a. Nama Jurnal : Environmental technology
b. Nomor/Volume/Hal : 22/38/-
c. Edisi (bulan/tahun) : -/2017
d. Penerbit : Taylor and Francis LTD
e. Jumlah halaman : 12
f. Ala mat web jurnal:https://www.tandfonline.com/dol/a bs/10/1080/09593330.2017.1
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Phosphate recovery through struvite-family crystals precipitated in thepresence of citric acid: mineralogical phase and morphology evaluation (Article)
, , , , ,
Department of Chemical Engineering, Universitas Pembangunan Nasional ‘Veteran’ Jawa Timur, Surabaya, IndonesiaCenter for Waste Management, Department of Mechanical Engineering, Diponegoro University, Semarang,
IndonesiaDepartment of Chemical Engineering, UNTAG University, Semarang, Indonesia
AbstractPrecipitation strategy of struvite-family crystals is presented in this paper to recover phosphate and potassium from asynthetic wastewater in the presence of citric acid at elevated temperature. The crystal-forming solutions wereprepared from crystals of MgCl and NH H PO with a molar ratio of 1:1:1 for Mg , NH , and PO , and the citricacid (C H O ) was prepared (1.00 and 20.00 ppm) from citric acid crystals. The Rietveld analysis of X-ray powderdiffraction pattern confirmed a mixed product of struvite, struvite-(K), and newberyite crystallized at 30°C in theabsence of citric acid. In the presence of citric acid at 30° and 40°C, an abundance of struvite and struvite-(K) wereobserved. A minute impurity of sylvite and potassium peroxide was unexpectedly found in certain precipitates. Thecrystal solids have irregular flake-shaped morphology, as shown by scanning electron microscopy micrograph. Allparameters (citric acid, temperature, pH, Mg/P, and N/P) were deliberately arranged to control struvite-family crystalsprecipitation. © 2017 Informa UK Limited, trading as Taylor & Francis Group.
SciVal Topic Prominence
Topic:
Prominence percentile: 99.359
Author keywordscitric acid elevated temperature Precipitation struvite-family crystals XRPD Rietveld analysis
Indexed keywords
EMTREE drug terms: citric acid magnesium phosphate struvite citric acid magnesium derivative
magnesium phosphate phosphate potassium struvite
GEOBASE SubjectIndex:
chemical compound citric acid crystal structure high temperature phosphate
pollutant removal potassium precipitation (chemistry) recovery struvite
wastewater treatment X-ray diffraction X-ray spectroscopy
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Environmental Technology (United Kingdom)Volume 38, Issue 22, 17 November 2017, Pages 2844-2855
Perwitasari, D.S.a,b Edahwati, L.a,b Sutiyono, S.a,b Muryanto, S.b,c Jamari, J.b Bayuseno, A.P.b
a
b
c
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2 4 2 4+2 +
4 4−3
6 8 7
Struvite | Phosphorus | Struvite crystallization
Chemistry database information
Substances
⤢
K
O O
2
⤢
K
⤢HO
HO
OOHO
OH
O
⤢
ammonium
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, (2018) Journal of Crystal Growth
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Optimization of key parametersin struvite (K) production forphosphorus and potassiumrecovery using a batch crystallizer
Perwitasari, D.S. Muryanto, S.Tauviqirrahman, M.
Thermal decomposition ofstruvite in water: qualitative andquantitative mineralogy analysis
Bayuseno, A.P. Schmahl, W.W.
Hydrothermal synthesis ofstruvite and its phase transition:Impacts of pH, heating andsubsequent cooling methods
Bayuseno, A.P. Schmahl, W.W.
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Mineral speciation determinationand quantitative x-ray analysis ofstruvite family crystalsprecipitated in wastewater
Edahwati, L. Muryanto, S.Jamari, J.
References (50)
EMTREE medicalterms:
Article controlled study crystal crystal structure mineralogy pH precipitation
scanning electron microscopy temperature waste component removal waste water
X ray powder diffraction chemistry precipitation procedures sewage
MeSH: Chemical Precipitation Citric Acid Magnesium Compounds Phosphates Potassium
Struvite Waste Disposal, Fluid Waste Water
Chemicals and CAS Registry Numbers:citric acid, 126-44-3, 5949-29-1, 77-92-9, 8002-14-0; magnesium, 7439-95-4; phosphate, 14066-19-4, 14265-44-2;struvite, 13478-16-5, 15490-91-2, 21057-76-1, 7785-21-9; potassium, 7440-09-7;
Citric Acid; Magnesium Compounds; magnesium phosphate; Phosphates; Potassium; Struvite; Waste Water
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ISSN: 09593330CODEN: ENVTESource Type: JournalOriginal language: English
DOI: 10.1080/09593330.2017.1278795PubMed ID: Document Type: ArticlePublisher: Taylor and Francis Ltd.
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8/5/2019 Environmental Technology: Vol 38, No 22
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