Rushdi M. Sadaqah scite author profile

Representative samples were collected from various stages of phosphorite mining and beneficiation from the Al-Abiad and Al-Hasa mines in central Jordan and the Eshidiyya mine in southern Jordan. After open pit mining, the rock is crushed and dry-sieved to pass 12 mm in order to concentrate the ore. The sieved material is then agitated, washed with fresh water, and wet sieved to pass 4 mm. Samples were analyzed by ICP-MS for major elements and As, Cd, Co, Cr, Cu, Hg, Mo, Ni, Pb, Se, U, V, and Zn. We found that throughout the above-mentioned processes, potentially toxic metals are partially removed from the ore. However, most of the contaminants are still retained within the final phosphorite product. The slime and slime water were analyzed; we found no effect of the slime water on the nearby ground water regime. The phosphorite is converted to fertilizer through reactions with sulfuric acid and then ammonia to produce diammonium phosphate (DAP). Gypsum is produced as a reject. The potentially toxic metals follow the behavior of P and are enriched by a factor of more than 1.5 in the DAP compared with the input phosphorite. The trace metal content in the phosphogypsum is very low.

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Sequence stratigraphy and evolution of Eshidiyya phosphorite platform, southern Jordan

Abed

Sadaqah

Al-Jazi³

2007

Sedimentary Geology

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Role of Upper Cretaceous oyster bioherms in the deposition and accumulation of high-grade phosphorites in central Jordan

Abed¹,

Sadaqah²

1998

Journal of Sedimentary Research

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Oxygen and carbon isotopes in Jordanian phosphorites and associated fossils

Sadaqah

Abed

Grimm

et al. 2007

Journal of Asian Earth Sciences

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Rushdi M. Sadaqah

Upper Cretaceous (Campanian) phosphorites in Jordan: implications for the formation of a south Tethyan phosphorite giant

Uranium and Potentially Toxic Metals During the Mining, Beneficiation, and Processing of Phosphorite and their Effects on Ground Water in Jordan

Sequence stratigraphy and evolution of Eshidiyya phosphorite platform, southern Jordan

Role of Upper Cretaceous oyster bioherms in the deposition and accumulation of high-grade phosphorites in central Jordan

Oxygen and carbon isotopes in Jordanian phosphorites and associated fossils

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