Assessing the Methods of Spent Caustic Effluent Treatment from Liquid Petroleum Gas (LPG) Sulphur Purification Process
Linked Agent
Rashdan, Suad Ahmed , Thesis advisor
ElKanzi, Elamin Mohammad , Thesis advisor
Language
English
Extent
11, 143, 76, [2] pages
Subject
Place of institution
Sakhir, Bahrain
Thesis Type
Thesis (Master)
Institution
University of Bahrain, College of science, Environment and Sustainable Development Program
Description
Abstract
Sweetening natural gas is extremely important to remove contaminants that affect
the quality of the final product and could cause serious safety, environmental,
health and/or process problems. Sweetening processes varies from single-simple
step to multiple-complex steps depending on the type and the quantity of the
contaminants. Bahrain’s old gas treatment plant utilizes a caustic treatment
method that produces an unpleasant smell caused by the presence of hydrogen sulfide and other organic sulfur compounds.
This research aimed to find the best treatment method for the generated spent caustic solution produced upon Liquefied Petroleum Gas (LPG) sulfur purification process.
A third-party laboratory was asked to conduct American Public HealthAssociation (APHA) analysis to measure the wastewater content concentrations.
A questionnaire was conducted, and the results were analyzed using Analytical Hierarchy Process (AHP) to find the best treatment option.
Among the five AHP
model criteria (initial investment cost, operational costs, environmental impact and safety concerns, materials availability, and treatment benefits), the costs (initial investment and operational costs) were the leading criteria, followed by the environmental impact and safety concerns. The leading alternative for the top three criteria was biological treatment. The biological treatment was proven economically with efficiency to remove sulfur compounds.
GRAMM/GRAL software was used for hydrogen sulfide emission dispersions.
Hydrogen sulfide concentrations were 30.86 μg/m3
and 16.09 μg/m3 at 1.8m height above the ground and a distance of 21 to 27 meters from weathering pits
and 6.4 to 7 meters from the desulfurization unit, respectively, which is above the Bahrain legal standard of 15 μg/m3. From an occupational health point of view,
the computed concentrations were well below the hazardous limits for occupational health impacts, i.e. the impact was limited to the bad odor smell.
The main drawn recommendations from this study were: to adopt the biological treatment method for the wastewater and to assess the impact of other odours of
organic sulfur compounds.
Sweetening natural gas is extremely important to remove contaminants that affect
the quality of the final product and could cause serious safety, environmental,
health and/or process problems. Sweetening processes varies from single-simple
step to multiple-complex steps depending on the type and the quantity of the
contaminants. Bahrain’s old gas treatment plant utilizes a caustic treatment
method that produces an unpleasant smell caused by the presence of hydrogen sulfide and other organic sulfur compounds.
This research aimed to find the best treatment method for the generated spent caustic solution produced upon Liquefied Petroleum Gas (LPG) sulfur purification process.
A third-party laboratory was asked to conduct American Public HealthAssociation (APHA) analysis to measure the wastewater content concentrations.
A questionnaire was conducted, and the results were analyzed using Analytical Hierarchy Process (AHP) to find the best treatment option.
Among the five AHP
model criteria (initial investment cost, operational costs, environmental impact and safety concerns, materials availability, and treatment benefits), the costs (initial investment and operational costs) were the leading criteria, followed by the environmental impact and safety concerns. The leading alternative for the top three criteria was biological treatment. The biological treatment was proven economically with efficiency to remove sulfur compounds.
GRAMM/GRAL software was used for hydrogen sulfide emission dispersions.
Hydrogen sulfide concentrations were 30.86 μg/m3
and 16.09 μg/m3 at 1.8m height above the ground and a distance of 21 to 27 meters from weathering pits
and 6.4 to 7 meters from the desulfurization unit, respectively, which is above the Bahrain legal standard of 15 μg/m3. From an occupational health point of view,
the computed concentrations were well below the hazardous limits for occupational health impacts, i.e. the impact was limited to the bad odor smell.
The main drawn recommendations from this study were: to adopt the biological treatment method for the wastewater and to assess the impact of other odours of
organic sulfur compounds.
Note
Title on the cover :
تقييم طرق معالجة المخلفات السائلة الكاوية المستهلكة
الناتجة من عملية تنقية غاز البترول المسال من الكبريت
تقييم طرق معالجة المخلفات السائلة الكاوية المستهلكة
الناتجة من عملية تنقية غاز البترول المسال من الكبريت
Member of
Identifier
https://digitalrepository.uob.edu.bh/id/bb9c3a69-ea97-435e-bf8a-d6428faa034c
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