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RECOVERY OF PHOSPHATE FROM SEWAGE SLUDGE


Enviado por   •  13 de Febrero de 2014  •  Tesis  •  4.265 Palabras (18 Páginas)  •  262 Visitas

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RECOVERY OF PHOSPHATE FROM SEWAGE SLUDGE

AND SEPARATION OF METALS BY ION EXCHANGE

Erik Levlin

Land and Water Resources Engineering, Royal Institute of Technology, S-100 44 Stockholm, Sweden

Abstract

Ion exchange can be used to separate phosphorus from iron when phosphorus is recovered

from sewage sludge. A review of the use of ion exchange for phosphorus recovery is

presented followed by a discussion on how to use ion exchange for separation of metal and

phosphate. Example of processes for recovering of phosphate with ion exchange are

BioCon and RemNut. In the BioCon-process is ash from sludge incineration leached with

acid and the metal ions are separated from the phosphate with a ion exchange process,

producing iron chloride and phosphoric acid. In the RemNut-process is phosphorus

recovered from the effluent of the sewage treatment plant as magnesium ammonium

phosphate. Phosphate, which without a ion exchange process is recovered as iron

phosphate, has no commercial value as raw material for the phosphate industry. By mixing a

cation exchange resin with the sludge, hydrogen ions from the ion exchanger can dissolve

metal ions which are taken up by the ion exchanger. If a magnetic resin is used it can be

separated from the sludge with a magnetic drum. Using the acid released from the ion

exchange resin to leach the sludge decreases the consumption of chemicals needed for the

process. Ion exchange textiles and ion selective membrane can also be used for phosphorus

recovery processes.

Keywords

Ion exchange, phosphorus recovery, sewage sludge

BACKGROUND

A national goal has recently been proposed in a report to the Swedish government that at least

75% of phosphorus from wastewater should be recovered at latest 2010 without risks for

health and environment (Wallgren, 2001). In the sewage treatment plant phosphorus is

removed from the wastewater by precipitation with iron salt. However, since phosphorus is

needed as a fertiliser in the agriculture, a requirement for getting sustainable wastewater

treatment is to create method to use the phosphorus from the wastewater as a fertiliser in the

agriculture. Most of the phosphorus used in the agriculture originates from mining of

phosphate ores. The global deposits of economically mine able phosphate are estimated to be

109 ton phosphorus and the total amount phosphorus in the sediments is estimated to be 1015

ton (Butcher et al., 1994). Many different phosphate minerals are available, but only apatite

(calcium phosphate, Ca3(PO4)2) is used for phosphate production (Corbridge, 1995).

Phosphate can be economically produced by leaching apatite mineral with sulphuric acid

(McKetta and Cunningham 1990):

Ca3(PO4)2 (s) + 3 H2SO4 + 3x H2O 2 H3PO4 + 3 CaSO4·xH2O (s)

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In 1995 the world phosphate rock production was 160 000 ton per year (as P2O5), having

tripled over the last 40 years. About 90% of this amount is used as fertiliser. At this rate of

consumption the known apatite reserves have been estimated to last for a period up to 1000

years. However, if the present increase in world population and the increasing need for

fertiliser for food production is taken into account, the supply of phosphate may well be

crucial within a century. Apatite ore is thereby a limited resource that must be preserved by

phosphate recovery.

Phosphorus may be recovered from sewage sludge by leaching with acid (Levlin et al., 1998,

2000, Levlin, 1999). The solubility of phosphate compounds decreases with increasing pHlevel.

Phosphate compounds can depending on the pH-level be dissolved as:

MePO4 (s) + 3 H+  H3PO4

o + Me3+ (pH < 2.15)

MePO4 (s) + 2 H+  H2PO4

- + Me3+ (pH > 2.15 and < 7.20)

MePO4 (s) + H+  HPO4

2-+ Me3+ (pH > 7.20 and < 12.02)

MePO4 (s)  PO4

3-+ Me3+ (pH > 12.02)

Two systems for phosphorus recovery from sludge in wastewater treatment plants with

chemical precipitation with iron salts is at present considered, KREPRO (Hansen et al., 2000,

Hagström et al., 1997) and Bio-Con which uses ion exchange processes. In the two systems

the iron content in the sludge is dissolved by acid together with the phosphate. After

dissolution, the leachate contains a mixture of different ions including iron, together with

phosphoric acid, which must be separated in a further step.

In the KREPRO-process is the heavy metals precipitated with sulphide and the phosphate as

ferric phosphate. Without removing the iron, phosphate will preferentially be precipitated as

iron phosphate, which have a lower solubility

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