Jump to main content Jump to footer Skip navigation Jump to navigation start

Rethinking Minjingu Phosphates | REE_Use

KoEF 04/2019

Cooperating countries:Tansania and Austria

Coordinating institution: Gerald Steiner, Nils Haneklaus, Universität für Weiterbildung Krems

Partner institutions: Dennis Mwalongo, Tanzania Atomic Energy Commission

Project duration: 1 November 2020 - 31 October 2023

Abstract

The Minjingu phosphate rock deposit in Northern Tanzania is unprecedented in its mineral composition. Labelled a phosphate deposit, since it contains elevated concentrations of P2O5 (roughly 30 %), it could also easily be labelled a rare earth element (REE) deposit, since it shows one of the highest REE concentrations in Africa, and an uranium deposit, since it shows uranium concentrations up to 5 times higher (390 mg uranium per kg phosphate rock on average and up to 600 mg uranium per kg phosphate rock) than those of the neighboring commercial uranium mines in Namibia (100-120 mg/kg uranium concentration on average). Despite the high concentration of toxic and radiotoxic elements, in particular uranium, Minjingu phosphate rock is used to produce five different fertilizer products (i.e., fertilizer powder, fertilizer granules, Mazao, Nafaka and Top Dressing) that are successfully marketed and sold in South-East Africa (mostly Tanzania, Kenya, Uganda, Ruanda, and Zambia). The region is dependent on Minjingu phosphates. By that not selling Minjingu phosphate fertilizer products (as was done at the beginning of 2000, due to radiotoxic concerns) is not an option since the region is highly dependent on inexpensive locally produced fertilizer. In preparation for this project we systematically analyzed (i) major trace elements (Li, Be, Na, Mg, Al, Si, P, K, Ca, Ti, Cr, Mn, Fe, Co, Ni, Cu, Zn, Ga Rb, Zr, Nb, Mo, Cd, Sb, Ba, Ce, Au, Pb, Bi), (ii) rare earth elements (REEs) (Y, La, Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu) as well as (iii) uranium and thorium in 10 Minjingu phosphate rock layers, 4 Minjingu mine tailings and the 5 presently produced Minjingu fertilizer products (fertilizer powder, fertilizer granules, Mazao, Nafaka and Top Dressing).

In addition, we started looking into an alternative, new innovative process for radiotoxic uranium and REE removal during Minjingu phosphate rock processing, which still promises an inexpensive and radio toxically unobjectionable fertilizer product. The Tanzania Atomic Energy Commission (TAEC) responsible for radiotoxic materials in Tanzania is highly motivated to introduce this process to the market. It is a balancing act to decide how to best process and use Minjingu phosphate rocks without disenfranchising or even alienating local farmers, provoking food shortages in the region. Together the Transdisciplinary laboratory – Sustainable Mineral Resources (Td-SMR) of Danube University Krems (DUK) and the Tanzania Atomic Energy Commission (TAEC) aim within this project to find the right tone and strategy to fully utilize the treasures found in Minjingu phosphate rocks.

Der Alternativtext wird in Kürze eingefügt
© Gerald Steiner, Furaha Chuma, Bernhard Geissler, Nils Haneklaus, Dennis A. Mwalongo, Liliya Satalkina

Contribution to Sustainable Development

The core aim and outcomes of the project relates to the sustainable recovery of valuable potentially hazardous by-products from Minjingu phosphate rocks. This directly contributes to a range of SDGs, namely SDG 1, 2, 3, 7, 9, 12, 13, 14, 15, and 17 as indicated below.

YouTube is deactivated

We need your consent to use YouTube videos. For more information, see our Privacy Policy.

Vimeo is deactivated

We need your consent to use Vimeo videos. For more information, see our Privacy Policy.

OpenStreetMap is deactivated

We need your consent to use OpenStreetMap. For more information, see our Privacy Policy.

Issuu is deactivated

We need your consent to use Issuu. For more information, see our Privacy Policy.