Al-Noor University
Official Journal of the College of Engineering, AlNoor University

Al-Noor Journal for Oil and Gas is a peer-reviewed, open-access scientific journal published quarterly by the College of Engineering at Al-Noor University, Iraq, since January 2025. The journal operates under the Creative Commons Attribution 4.0 International (CC BY 4.0) license, allowing unrestricted access and distribution with proper attribution.

To uphold academic integrity, all submitted manuscripts are screened for plagiarism using iThenticate. The journal follows a rigorous double-blind peer-review process to ensure the scientific quality, originality, and relevance of published articles in the fields of oil and gas engineering, exploration, production, and energy studies.

Pre-calculated API Gravity Tables as an Alternative to the Standard Equation

Pages 1-5

https://doi.org/10.69513/jnog.v2.i1.ar1

Mahmod A. Abdulqader

Abstract American Petroleum Institute (API) gravity is a key parameter for classifying crude oil and petroleum products by density. This study presents the development of tables of oil gravities ranging from 0.600 to 1.025, from which the American Petroleum Institute (API) gravity can be derived without resorting to the equation of state. This research also examined four densities across four oil products (gasoline, kerosene, gas oil, and lubricating oils), yielding a total of 16 models. Moreover, the results of the laboratory test showed that the gravity of the oils is close, take for instance (the gravity of gasoline ranges between 0.700 to 0.750, the density of kerosene ranges from 0.750 to 0.800, while the density of gas oil ranges from 0.800 to 0.850, and lastly the range of gravity of lubricating oils ranged from 0.850 to 0.900). In conclusion, the tables produced by this study will enable direct measurement of API gravity, saving testers time, improving accuracy, and reducing errors.

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OIl

Additives of Base and Acid to Oxidative Desulphurization Process of Al-Sumoud Refinery at NRC Baiji

Pages 7-12

https://doi.org/10.69513/jnog.v2.i1.ar2

Ghazwan Jassam, Mahmod A. Abdulqader, Omer Habeeb

Abstract The removal of sulfur compounds from kerosene via extraction is based on the fact that sulfur compounds are more soluble than hydrocarbons in appropriate solvents. The most attractive feature of extractive desulphurization is its applicability at low temperatures and low pressure. The kerosene samples used in this research were obtained from the North Refineries Company, Baiji (NRC), Al-Sumoud refinery. Production of high-quality kerosene fuel decreases its sulphur content of it, and thus burns with the least amount of CO2. One of the main risks to the combustion properties of kerosene and to the atmosphere is the presence of secondary pollutants, such as sulfur and other impurities. Sulfur contamination produces a strong odor that may cause problems if not removed. In this study, additives were incorporated into kerosene to reduce the sulfur content and improve its fuel properties. In this research, the best temperature of removal was 70 °C for base and acid, the removal average of sulfur was from 1880 ppm, while the removal average of sulfur was from 1600 to less than 600 ppm for the Al-Sumoud refinery, without effect on the other specifications, especially specific gravity is considered the main property, ruler test. 

OIl

Water finding paste and phase finding paste of gasoline fuel: performance comparative study

Pages 13-16

https://doi.org/10.69513/jnog.v2.i1.ar3

Mahmod A. Abdulqader

Abstract This research aims to determine the water and phase in the bottom tanks of oil contents using water finding past and phase finding past. in this work were determined the comparative performance of three different type of gasoline fuel were labeled (Gasoline, G-KK-MWFP, and G-KK-MWFPEG). Therefore, the water phase in the gasoline fuel product. The results showed that the water level in gasoline product and there is no phase stage. Hence, the data in this research will help the testers and workers in laboratories to determine the water and phase in gasoline fuel and fuel products.ك fuel product. The results showed that the water level in gasoline product and there is no phase stage. Hence, the data in this research will help the testers and workers in laboratories to determine the water and phase in gasoline fuel and fuel products.كز help the testers and workers in laboratories to determine the water and phase in gasoline fuel and fuel products.ك

Gas

The Circle of Poison: Global Lessons from Minamata, Iraq’s Mercury Wheat Disaster, and the Bhopal Gas Tragedy

Pages 17-23

https://doi.org/10.69513/jnog.v2.i1.ar4

Hikmat Alsalim

Abstract Industrial chemicals have driven major technological progress, yet their mismanagement has repeatedly resulted in catastrophic human exposure. This paper presents a comparative analysis of three landmark chemical disasters: methylmercury poisoning in Minamata and Niigata (Japan), the 1971–1972 mercury-treated wheat poisoning in Iraq, and the 1984 methyl isocyanate release in Bhopal (India). Despite involving different chemicals, exposure routes, and timescales, these events reveal a common pattern of systemic failure, including ignored early warning signs, ineffective hazard communication, degraded safety systems, weak regulatory oversight, and inadequate medical preparedness.
The study contrasts chronic dietary exposure, acute ingestion, and hyperacute inhalation pathways, demonstrating how chemical properties and toxicokinetics govern health outcomes while systemic vulnerabilities determine disaster magnitude. Building on these historical lessons, the paper extends its analysis to the petroleum and natural gas sector, emphasizing mercury occurrence, speciation, and removal as a persistent but under-recognized process safety and environmental hazard. The findings highlight that chemical disasters arise not from chemistry alone, but from unprepared systems. Effective prevention requires integrated risk governance, robust safety culture, accurate chemical knowledge, and consistent global safety standards.o

OIl

Hydraulic fracturing technology and its economic and environmental impacts

Pages 25-31

https://doi.org/10.69513/jnog.v2.i1.ar5

Jamal Mohammed Najeb

Abstract iven the urgent need for energy resources, many major energy-producing and consuming countries are seeking new sources to contribute to the sustainability of global energy supplies. The United States possesses vast reserves of unconventional oil and gas resources, such as shale formations and dense rocks. This research aims to highlight hydraulic fracturing technology used in developing unconventional hydrocarbon energy sources, the use of which requires favorable economic conditions, namely high conventional oil prices. The research problem stems from OPEC's disregard for the role of high oil prices, which have created opportunities for developing unconventional oil extraction technologies. The most significant finding of the research is that high oil prices have enabled the development of unconventional hydrocarbons and reduced OPEC's share of global oil production. The research recommends limiting price increases to levels that allow for the development of unconventional hydrocarbon resources.
OPEC's share of global oil production. The research recommends limiting price increases to levels that allow for the development of unconventional hydrocarbon resources.

Gas

Radiological Assessment of Soil Contamination by NORM in Ain Zalah Oil Field, Nineveh, Iraq

Pages 33-40

https://doi.org/10.69513/jnog.v2.i1.ar6

Sana Fathe Mahammod

Abstract The activity concentrations and radiological hazard parameters (equivalent activity of radium Ra_eq, absorbed dose rate D, annual effective dose AEDE, external and internal hazard indices H, Gamma radiation representative level index I_γ, Alpha radioactivity level index (I_α), and excess lifetime cancer risk ELCR) of the terrestrial Naturally Occurring Radioactive Materials NORM such as (_ ^226)Ra,(_ ^232)Th and (_ ^40)K were assessed in soil samples collected from Ain Zalah oil field, Nineveh, Iraq, using HPGe detector. The analysis of NORM gives obtainable data for rules about radiation protection. The results were depicted in graphical and tabular formats and subsequently compared to the established international permissible thresholds set by UNSCEAR. Consequently, it is possible that the petroleum extraction activities in the studied area could result in some radiological risks for both the workers and the surrounding environment due to the elevated activity concentration of radionuclides.
ies in the studied area could result in some radiological risks for both the workers and the surrounding environment due to the elevated activity concentration of radionuclides.

OIl

The impact of oil and gas production and industry of qayyarah oilfield on soil and groundwater quality

Volume 1, Issue 1, July 2025, Pages 1-7

https://doi.org/10.69513/jnog.v1.i1.ar1

Abstract The process of producing oil after exploration depends on extracting the components of petroleum from petroleum reservoirs and converting them into refinery products that can be used. As for the refining process, it depends on breaking down crude oil into its various components, which are selectively reformed into new products. Oil production and refining are activities that cause negative impacts on the environment, including soil and groundwater. This is evident in the current study of the research area through conducting analysis of samples of soil and groundwater around and inside Qayyarah oilfield and refinery. Soil and water samples obtained from eight sites; around and inside of Qayyarah refinery area plus two surface water samples of Tigris River from above and down Qayyarah oil field and refinery. These samples were analyzed for their heavy metals content such as lead (Pb), copper (Cu), Nickel (Ni), cadmium (Cd), iron (Fe), zinc (Zn), and chromium (Cr). The results showed that the amount of lead present in the soil ranges from (13.40 – 99,40) mg/kg, copper values were in the range of (5.10- 36.70)mg/kg, Nickel concentration vary from ( 0.64 – 13.80)  mg/kg, values for cadmium, iron, zinc, and chromium were (0.12 – 0.82) mg/kg, (221.0 –739.0) mg/kg, (11.1-98.0)mg/kg and (8.5-73.0)  mg/kg respectively. Apart from zinc and nickel, all other heavy metals were higher than the toxicity limits for heavy metals in naturals oil; this implies pollution of the soil by heavy metals. Also, the groundwaters were found to be polluted by lead, the pH of the water samples was found   to deviate significantly from DPR limits and WHO standard for potable water. This also implies pollution. Such contamination for both soil and groundwater grows and becomes bigger in the future, which could adversely affect human health and the region's ecosystems.

Pre-calculated API Gravity Tables as an Alternative to the Standard Equation

Volume 2, Issue 1, Winter 2026, Pages 1-5

https://doi.org/10.69513/jnog.v2.i1.ar1

Mahmod A. Abdulqader

Abstract American Petroleum Institute (API) gravity is a key parameter for classifying crude oil and petroleum products by density. This study presents the development of tables of oil gravities ranging from 0.600 to 1.025, from which the American Petroleum Institute (API) gravity can be derived without resorting to the equation of state. This research also examined four densities across four oil products (gasoline, kerosene, gas oil, and lubricating oils), yielding a total of 16 models. Moreover, the results of the laboratory test showed that the gravity of the oils is close, take for instance (the gravity of gasoline ranges between 0.700 to 0.750, the density of kerosene ranges from 0.750 to 0.800, while the density of gas oil ranges from 0.800 to 0.850, and lastly the range of gravity of lubricating oils ranged from 0.850 to 0.900). In conclusion, the tables produced by this study will enable direct measurement of API gravity, saving testers time, improving accuracy, and reducing errors.

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Geologists and Petrophysicists: Enabling Smart Exploration and Sustainable Development in the Oil and Gas Sector.

Volume 1, Issue 1, July 2025, Pages 56-61

https://doi.org/10.69513/jnog.v1.i1.ar5

Abstract    In the complex and evolving landscape of global energy, the search for hydrocarbons is far more than a hunt for oil—it is a scientific endeavor driven by the understanding of the Earth’s deep secrets. Geologists and petrophysicists sit at the heart of this process, shaping how resources are found, evaluated, and ultimately developed. Their work is central not only to discovering new reserves but also to making smarter use of existing fields and ensuring responsible resource management. AI[i] can be used to process and interpret data across various sectors of the early-stage oil and gas industry. This study is useful in highlighting the role geologists and rock physicists play in harnessing the power of machine learning to reduce risks and maintenance costs, and in illustrating its applications for specific tasks in the oil sector. AI brings numerous advantages to the oil and gas industry from enhancing operational efficiency to improving and enabling better decision-making. AI transforms various aspects of the sector. These benefits lead to increased productivity, reduced costs, and a competitive edge in the market. 




 
 

OIl

Petroleum Occurrence Probability along Sinjar Anticline/ NW of Iraq

Volume 1, Issue 1, July 2025, Pages 32-44

https://doi.org/10.69513/jnog.v1.i1.ar4

Abstract Petroleum system analysis of Sinjar anticline (which is located in the NW of Iraq) is presented. Previous geophysical data (gravity, magnetic and seismic interpretation controlled by boreholes) revealed presence sedimentary basin as a graben south of Sinjar anticline during Paleozoic and Mesozoic times , as a source for generation of petroleum, migrates to Sinjar anticline as a typical reservoir rocks, forming a perfect petroleum system presumed during Mesozoic and Cenozoic times. The presence of oil sites in the extension of Sinjar uplift inside Syria suggests the presence of oil in this anticline since the largest part of it is inside Iraq.

OIl

Geochemistry study of chia gara formation in selected wells from Ajil oilfield

Volume 1, Issue 1, July 2025, Pages 17-30

https://doi.org/10.69513/jnog.v1.i1.ar3

Abstract This study has been carried out to Chia Gara Formation of (Late Jurassic-Early Cretaceous ) age which composed of marly limestone at two subsurface wells in (Aj8) and (Aj12) North Iraq. The rock of the formation contain different percentage of (TOC) between medium to very good. According to qualitative posit the kerogene type are mixed of (ll/ lll) and type (lll) and amount of type (ll) . Evaluation found that organic material are of singular structure type (AOM) forming the main type of kerogene (A & C) where the A- type mostly forming the liquid hydrocarbons and B-type mostly formed gas hydrocarbon
 

OIl

Significant Effect of Temperatures on Some Physicochemical Parameters during the Extraction of Diesel Oil from Free Water

Volume 1, Issue 1, July 2025, Pages 46-54

https://doi.org/10.69513/jnog.v1.i1.ar6

Abstract The experiment was conducted in the North Oil Company - Kirkuk site, which belongs to the Iraqi Ministry of Oil, which is located in the Arafa area, west of Kirkuk Governorate. The experiment started from August 3, 2022, to September 17, 2022, to study the effect of three factors. The first factor is the oil purification time in three levels, 30, 60 and 90 minutes. The second factor is the oil purification temperature in two levels, 50 and 60 C°. As for the third factor, it included the number of engine operating hours in three levels: 0, 50, and 100 working hours, and its effect on the characteristics of homemade oil, SAE-40 cycle type, such as sediment volume ratio, viscosity index, ash content. The data were analysed statistically according to the randomized complete block design (RCBD). Among the results, the best volumetric percentage of sediment for oil upon purification amounted to 0.0100 (%) and was achieved at a temperature of 60 C° and a time of oil purification of 90 minutes, respectively, which matched the international oil specifications. The best non-significant reading for the viscosity index of the oil at purification was 160.01 at a temperature of 50 C° and the time of oil purification was 60 minutes. The closest reading of the international oil specifications was 79.24.As for the ash content of the oil at purification, it recorded the best significant reading of 0.1107% at a temperature of 60 C° and the time of oil purification 90 minutes The closest reading of the international oil specifications was 0.1033% .

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` Improved normal gasoline specifications by adding high-octane number gasoline at (NRC) Baiji

Volume 1, Issue 1, July 2025, Pages 9-15

https://doi.org/10.69513/jnog.v1.i1.ar2

Abstract The aim of this work was to the improvement of regular gasoline specifications by adding high-octane gasoline, then found the mixing ratio to ensure accuracy in the desired octane number. Three samples of gasoline were used (regular gasoline, premium gasoline, super gasoline). The tests were conducted of them by finding its octane number, density, and distillation after and before the addition processes. Moreover, laboratory test results showed that the octane number results before addition were reached 79, 97 and 82 normal gasoline, super gasoline, and premium gasoline, respectively. The results also showed that adding 7500 m3 of super to 30000 m3 of regular resulted in a mixture with an octane number of 82 and an amount of 37000 m3, which indicates the effectiveness of the mixing process. The results recommend the NRC Baiji to adding these amounts to make sure gasoline quality

Journal Metrics
Publication Start 2025
CiteScore 2023  
CiteScore 2024  
SJR 2023  
Scopus Q  
SNIP 2023  
 
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Accepted 7
Rejected 0
Submitted 22
 
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Acceptance Rate 32%
Acceptance Days 69
 
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Article Views 7,127
PDF Downloads 1,492
No. of Reviewers 31
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  • Publisher
    Al-Noor University
  • Frequency Quarterly
  • Print ISSN 3078-8706
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