Noor-Us Sabah scite author profile

Noor-Us Sabah

5Publications

63Citation Statements Received

81Citation Statements Given

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Abu Dhabi National Oil (United Arab Emirates)

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A corrosion map of Abu Dhabi

Cole

Ganther

Helal

et al. 2011

Materials & Corrosion

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This paper outlines how a corrosion map of zinc was developed for Abu‐Dhabi. It presents inputs into the model being databases of RH, rainfall, salt deposition and time of wetness and explains how these inputs are combined to product the corrosion map of Abu Dhabi. It is found that although the corrosion rate generally falls with distance from the Arabian Gulf, corrosion rates in the hinterland of the central coast and in the Hajar Mountains are higher than would be expected from a simple dependence on distance from the coast. The higher corrosion rates around the central coast are associated with the extremely low rainfall while those in the Hajar Mountains may be associated with the transport of airborne salinity from the Gulf of Oman. In general, the corrosion rates in Abu Dhabi are much higher than observed at sites in Australia and South East Asia with similar levels of airborne salinity which is attributed to the much higher quantities of salt that are retained on metal surfaces in Abu Dhabi (relative to Australia) due to the fact that rain washing events, which are frequent and effective in Australia, are very infrequent in Abu Dhabi.

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Towards the development of a corrosion map for Abu Dhabi

Ganther

Cole

Helal

et al. 2010

Materials & Corrosion

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Infrastructure development in the United Arab Emirates continues to escalate, yet very few corrosion studies have been performed in the region. In a step to address this situation, this paper reports on a study of zinc and steel corrosion and salt deposition rates at five sites in the Emirate of Abu Dhabi. The sites are classified as either urban/marine, marine, inland or mountainous. The study found that zinc corrosion rates range from 15 mm/year on the coast to 0.6 mm/year inland, while steel corrosion rates are 56 and 10 mm/year, respectively, at the same locations. While the salt deposition rate ranges from 5 to 18 mg/m 2 /day, it is not directly related to distance from the coast. Although the salt deposition rates observed are consistent with those at locations at similar latitudes, the corrosion rates are higher than in locations with comparable salt deposition rates. However, when the data were analysed along with relevant local meteorological data, it was found to be consistent with the basic assumptions of the holistic model of atmospheric corrosion developed by Cole et al. In particular, it is suggested that the relatively high corrosion rates observed here are associated with a greater accumulation of salt, which can occur in Abu Dhabi because rainfall, and thus rain washing, is extremely low compared to similar exposure locations in Australia and South-East Asia.

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Role of Organic Amendments to Enhance Soil Fertility Status and Wheat Growth in Salt Affected Soil

Sabah¹,

Tahir²,

Sarwar³

et al. 2020

PJAR

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Effectiveness of Zinc Coated, Blended and Bio-Activated Zinc Coated Urea to Quality, Biochemical Parameters and Yield in Rice Crop (Oryza sativa L.)

Nazir¹,

Aftab²,

Sarwar³

et al. 2021

PJAR

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M illions of people in the world feeding on cereals like wheat and rice (FAO, 2012). After wheat, rice is utmost imperative essential crop of Pakistan. It contributes approximately 0.6 percent in GDP. During 2018-2019 rice was sown on 2810 thousand hectares with production of 7202 thousand tons (Pakistan Economic Survey, 2018-2019). World's population increasing day by day, therefore, food need is also increasing, while the natural resources are same (United Nations, 2012). Malnutrition is a very popular issue of poor communities and due to reduced bioavailability, micronutrients deficiency is also becoming serious issue (Huang et al., 2002). In the soils of Zinc (Zn) deficient areas, Zn deficiency Abstract | Zinc (Zn) is an important microelement not only for animals, plants but for humans as well. Its importance cannot ignore for the plants to improve overall quality and yield. The overall physiology, quality and biochemical parameters also enhanced with optimum application of Zn. By keeping in mind, the facts, it was hypothesized that the use of ZnO (a cheap source of Zn) impregnated urea for rice may enhance grains (paddy) yield. Three types of urea were prepared including Zn coated, bio-activated Zn coated and Zn blended urea at the 1.5% rate of formulate. The bio-activated Zn coated urea was prepared by inoculating the powdered organic material with Zinc solubilizing bacterium and then this material was mixed with ZnO. This bio-active Zn was coated on urea at 1.5% rates to formulate. Moreover, Zn blended urea was prepared by mixing powder ZnO with urea. The comparative efficacies of different types of Zn impregnated urea were compared with ZnSO 4 to grains yield, physiology and biochemistry of rice under field conditions. The results showed that 1.5% bio-activated Zn (ZnO) coated urea performed better in promoting yield and biochemical parameters. About 15 to 20% increase was observed in yield physical, biochemical and quality parameters. This suggests that the application of bio-activated Zn coated urea @ 1.5% is greatly active in enhancing quality and yield of rice crop.

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Phosphorus Utilization Efficiency by Sunflower (Helianthus annuus L.) from Sparingly Soluble P Source under P Deficient Environment

Hammad¹,

Tahir²,

Sabah³

et al. 2021

PJAR

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Noor-Us Sabah

A corrosion map of Abu Dhabi

Towards the development of a corrosion map for Abu Dhabi

Role of Organic Amendments to Enhance Soil Fertility Status and Wheat Growth in Salt Affected Soil

Effectiveness of Zinc Coated, Blended and Bio-Activated Zinc Coated Urea to Quality, Biochemical Parameters and Yield in Rice Crop (Oryza sativa L.)

Phosphorus Utilization Efficiency by Sunflower (Helianthus annuus L.) from Sparingly Soluble P Source under P Deficient Environment

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