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of 16
pro vyhledávání: '"Iamir E. Maloka"'
Publikováno v:
Petroleum Science and Technology. 24:475-484
Empirical correlation is developed to predict viscosities of gas mixtures at low pressures and different temperatures. This proposed correlation depends on mole fractions of gas, molecular weight, boiling point, critical pressure and viscosity at 25
Publikováno v:
Petroleum Science and Technology. 24:117-127
In this work, thermal catalytic systems were used for CO2 reduction in the presence of H2S. The thermal reduction products were mainly methane and hydrogen, traces of ethane were also detected. The efficiency of CdSe in production of methane thermall
Publikováno v:
Petroleum Science and Technology. 24:103-112
In this paper, the thermal decomposition of hydrogen sulphide by Cadmium Chalcogens (CdS, CdSe, and CdTe) to hydrogen and sulphur was studied in the temperature range 275–525°C. The thermal dissociation of hydrogen sulphide process efficiency by t
Autor:
Iamir E. Maloka, Emad Talib Hashim
Publikováno v:
Petroleum Science and Technology. 24:113-116
A compote procedure is presented in this article for estimating static pressure gradient. The procedure integrates reservoir properties; temperature, pressure, depth, and density to calculate pressure drop in wellbore. The procedure constraints are i
Autor:
Iamir E. Maloka
Publikováno v:
Petroleum Science and Technology. 23:257-265
A new correlation has been developed to estimate viscosity for gases at low pressure for several organic and inorganic compounds as a function of temperature depending on critical properties, as well as, critical density, acentric factor, and molecul
Autor:
Iamir E. Maloka, Emad Talib Hashim
Publikováno v:
Petroleum Science and Technology. 23:267-271
The available data of thermal conductivity at different temperatures are used to develop a method to predict the thermal conductivity of hydrocarbons. The proposed correlation based on heat capacity at 25°C, molecular weight, acentric factor, critic
Autor:
Iamir E. Maloka
Publikováno v:
Petroleum Science and Technology. 23:125-128
A new equation to predict critical volume for hydrocarbon compounds has been developed. The proposed new equation is based on molecular weight and boiling temperature, and it shows a significantly better correlation with the average absolute deviatio
Autor:
Iamir E. Maloka
Publikováno v:
Petroleum Science and Technology. 23:119-123
One of the important physical properties of liquids is the boiling. A new correlation has been developed to estimate the boiling point for many of liquids as a function of molecular point and acentric factor. The proposed new correlation has been ver
Autor:
Iamir E. Maloka
Publikováno v:
Petroleum Science and Technology. 23:129-132
A new technique for predicting saturated liquid densities of alkanes at 25°C as a function of reduced temperature, acentric factor, critical volume, and molecular weight has been suggested. This new model shows good results in data fitness with an a
Autor:
Iamir E. Maloka
Publikováno v:
Petroleum Science and Technology. 23:133-136
A generalized liquid molar volume at the normal boiling point correlation has been developed. The correlation is based on experimental molar volume data. The characterization properties for estimation are critical volume, boiling point, critical temp