Treatment of Gaseous Ammonia Emissions Using Date Palm Pits Based Granular Activated Carbon

Vohra, Muhammad Shariq

doi:10.3390/ijerph17051519

Cited by 15 publications

(7 citation statements)

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“…Thus, longer column lengths enhance both the breakthrough and exhaustion times. These findings are similar to earlier studies on the removal of gaseous ammonia and benzene using activated carbon produced from date fruit pits [ 23 , 28 ]. The increase in the breakthrough and exhaustion times with an increased AC column length is mainly due to the availability of more adsorbent based surface complexation sites, which in turn results in higher adsorption of gaseous toluene.…”

Section: Resultssupporting

confidence: 92%

“…This results from AC’s high specific surface area, which gives rise to excellent adsorption efficiency, as noted for numerous gas phase pollutants including benzene [ 23 ], toluene/ethylbenzene/xylene/styrene [ 24 ], ammonia, [ 25 , 26 , 27 , 28 , 29 ], amines [ 30 ], and landfill gas laden with BTEX compounds [ 3 ]. Recently, a great interest has also been shown in AC production from otherwise waste materials [ 31 ], including agricultural by-products such as palm shells [ 29 , 32 , 33 , 34 ], olive stones [ 35 ], and date fruit pits [ 23 , 28 ], which have also been successfully used to remove gaseous pollutants. In light of the above discussion, the present work investigated the efficiency of AC derived from date palm-tree branches (DPB) agricultural waste, for gaseous toluene (C 6 H 5 CH 3 ) treatment.…”

Section: Introductionmentioning

confidence: 99%

“…In comparison to some chemical activation methods such as employing zinc chloride [ 26 ], the phosphoric acid activation method is environmentally friendly. Additionally, phosphoric acid-based activation has been successfully used in earlier activated carbon production studies [ 23 , 28 , 40 ]. In this work, we evaluated the effect of several operational variables, including gas flow rate, and gas concentration on the ability of phosphoric acid activated DPB based AC to remove gaseous toluene under dynamic flow conditions.…”

Section: Introductionmentioning

confidence: 99%

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Gas Phase Toluene Adsorption Using Date Palm-Tree Branches Based Activated Carbon

Vohra

Al-Suwaiyan

Hussaini

2020

IJERPH

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Activated carbon that has been widely used for several environmental applications is typically produced from carbon-based raw materials including agricultural by-products. To that end, extensive date palm-tree farming across the globe with millions of palm trees, also results in various types of agricultural waste including date palm-tree branches (DPB) during the regular trimming phase of palm-trees. Furthermore, air pollution also remains a serious concern in many global regions, requiring the application of appropriate treatment technologies to mitigate the respective negative effects on human health and environment. The present study thus assessed the efficiency of activated carbon (AC) derived from date palm-tree branches to treat gaseous toluene (C6H5CH3) streams under varying dynamic flow conditions. The produced activated carbon showed BET specific surface area (SSABET) of 800.87 m2/g with micro and mesoporous structure. The AC FTIR results indicated several surface groups including oxygen based functional groups. Furthermore, the dynamic gas treatment results showed that the respective activated carbon can successfully treat gaseous toluene under varying gas flow rates, gas concentrations and activated carbon bed depths. An increase in the carbon bed depth and decrease in toluene gas concentration and/or flow rate, yielded higher breakthrough time (BT) and exhaustion time (ET) values. Adsorption modeling employing the response surface methodology (RSM) approach successfully modeled the respective gaseous toluene removal experimental findings, with breakthrough time (BT) and exhaustion time (ET) as the response factors. The respective model-fitting parameters showed good outcomes using natural logarithmic transform model.

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Section: Resultssupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Gas Phase Toluene Adsorption Using Date Palm-Tree Branches Based Activated Carbon

Vohra

Al-Suwaiyan

Hussaini

2020

IJERPH

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“…Ammonia (NH3) is a colorless gas with pungent odor which is emitted from agriculture, fertilizer industry, fossil fuel combustion, and some chemical industries (Vohra, 2020). The typical NH3 concentrations emitted from the industrial process can range from 5 to 60 ppm (Chung et al, 2001) and ammonia from agricultural activities comprises approximately 80%-90% of total anthropogenic ammonia emissions (Xu et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…Adsorption using activated carbon is a simple and low-cost method (Guo et al, 2005) to purify NH3. Many reports have described the adsorption of ammonia gas by activated carbon (Domingo-Garcia et al, 2002;Ro et al, 2015;Vohra, 2020). This adsorption process depends on some factors such as the pore size, area, and surface chemistry (Bernal et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Characterization and Application of Mangosteen Peel Activated Carbon for Ammonia Gas Removal

Hanami

Lestari

2021

Environ. Nat. Resour. J.

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Mangosteen peel can be used as an activated carbon precursor because of its high lignin content and hardness. In this study, mangosteen peel activated carbon (MP-AC) was prepared by a physical activation method using CO2 at 850°C. The Brunauer-Emmett-Teller (BET) analysis was used to assess the optimal activation time to identify the largest surface area. The properties of MP-AC were characterized by the SEM-EDS and FTIR analyses. The results showed that MP-AC obtained from the 120-minute activation time had the largest BET specific surface area of 588.41 m2/g and was selected as an adsorbent in the dynamic adsorption of ammonia gas. The values of moisture content, ash content, and iodine number of MP-AC were 6.07%, 9.8%, and 1153.69 mg/g, respectively. Breakthrough curve indicated that with lower inlet concentration and higher adsorbent mass, longer breakthrough time is reached. Equilibrium data was best fitted to the Langmuir isotherm, while the pseudo-first order kinetic model favorably described the adsorption kinetics. The results revealed a potential to utilize MP-AC as an adsorbent for ammonia gas removal with average NH3 adsorption capacity of 0.41 mg/g.

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A review on the physicochemical properties and utilization of date seeds in value-added engineering products

et al. 2022

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Treatment of Gaseous Ammonia Emissions Using Date Palm Pits Based Granular Activated Carbon

Cited by 15 publications

References 50 publications

Gas Phase Toluene Adsorption Using Date Palm-Tree Branches Based Activated Carbon

Gas Phase Toluene Adsorption Using Date Palm-Tree Branches Based Activated Carbon

Characterization and Application of Mangosteen Peel Activated Carbon for Ammonia Gas Removal

A review on the physicochemical properties and utilization of date seeds in value-added engineering products

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