Utilization of vegetable oil refinery activated carbon-bleaching earth as an additive to the production of low-density facing bricks

The main objective of this study was to enhance the rate of UV and biodegradation of polyethylene by incorporating biodegradable materials and prooxidants. Prooxidants such as transition metal complexes are capable of initiating photooxidation and polymer chain cleavage, rendering the product more susceptible to biodegradation. In this work, the effect of (1) a metallic photoinitiator, cobalt stearate, and (2) different combinations of cobalt stearate and vegetable oil on the photooxidative degradation of linear low-density poly(ethylene)-poly(vinyl alcohol) (LLDPE/PVA) blend films has been investigated. For this, film-grade LLDPE was blended with different proportions of PVA. PVA is widely used in the industrial field, and recently it has attracted increasing attention as a water-soluble biodegradable polymer. Cobalt stearate and vegetable oil were added to the blends as prooxidants. The blends were prepared by melt mixing in a Thermo HAAKE Polylab system. Thin films containing these additives were prepared by a subsequent compression moulding process. The effect of UV exposure on LLDPE/PVA films in the presence as well as absence of these additives was investigated. Tensile properties, FTIR spectra, and scanning electron microscopy (SEM) were employed to investigate the degradation behaviour. It was found

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Optimization of a primary gravity separation treatment for vegetable oil refinery wastewaters

Clean Technologies and Environmental Policy ◽

10.1007/s10098-014-0754-3 ◽

2014 ◽

Vol 16 (8) ◽

pp. 1725-1734 ◽

Cited By ~ 10

Author(s):

Ariana M. A. Pintor ◽

Vítor J. P. Vilar ◽

Cidália M. S. Botelho ◽

Rui A. R. Boaventura

Keyword(s):

Vegetable Oil ◽

Gravity Separation ◽

Oil Refinery

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Optimization of Microwave-Assisted Extraction of Residual Soybean Oil from Spent Bleaching Earth

E3S Web of Conferences ◽

10.1051/e3sconf/202130201009 ◽

2021 ◽

Vol 302 ◽

pp. 01009

Author(s):

Chanatip Dejkajorn ◽

Panawan Suttiarporn ◽

Hussanai Sukkathanyawat ◽

Kittisak Wichianwat ◽

Saichon Sriphan ◽

...

Keyword(s):

Soybean Oil ◽

Vegetable Oil ◽

Regression Coefficient ◽

Bleaching Earth ◽

Extraction Yield ◽

Microwave Assisted Extraction ◽

Ethanol Mixture ◽

Microwave Assisted ◽

Assisted Extraction ◽

Edible Vegetable Oil

Spent bleaching earth (SBE) which is generated from bleaching process is a valuable industrial waste of edible vegetable oil production because of residual edible vegetable oil absorbed. The residual oil in spent bleaching earth can be recovered and reused for application in the industries such as the production of biodiesel and lubricant. Currently, microwave-assisted extraction (MAE) technique is widely used because this method has a shorter extraction time and less solvent consumption when compared with traditional methods. In this study, MAE combined with solvent reflux was optimized using solvent screening experiments and response surface methodology (RSM) to obtain the highest yield of MAE extraction of residual soybean oil from spent bleaching earth. The extraction yield of residual soybean oil obtained from selected solvent were hexane-ethanol mixture (2:1 v/v, 10.19%) > hexane-ethanol mixture (1:1 v/v, 10.00%) >hexane-ethanol mixture (1:2 v/v, 9.98%) > hexane-ethanol mixture (1:3 v/v, 9.83%) > hexane-ethanol mixture (3:1 v/v, 8.59%) > hexane (8.17%) > acetone (7.73%). The regression coefficient (R-squared = 0.9852) expresses the accuracy of the regression and indicates the relationship between experimental data and predicted result, with high regression coefficient close to 1, which is remarkably desired. The experiment conditions for optimal MAE extraction of residual soybean oil from SBE were hexane-ethanol mixture (2:1 v/v), liquid to solid ratio 15.56:1 mL/g, extraction time 12.22 min, and microwave power 350 W. Under such conditions, the highest predicted value of the extraction yield of residual soybean oil was 10.43%.

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Efficiency of Hybrid Process of Coagulation/Flocculation Followed by Membrane Filtration for the Treatment of Synthetic Vegetable Oil Refinery Wastewater

Recent Advances in Environmental Science from the Euro-Mediterranean and Surrounding Regions (2nd Edition) - Environmental Science and Engineering ◽

10.1007/978-3-030-51210-1_1 ◽

2021 ◽

pp. 3-8

Author(s):

Ghofrane Louhichi ◽

Philippe Moulin ◽

Ahmed Ghrabi ◽

Imen Khouni

Keyword(s):

Vegetable Oil ◽

Membrane Filtration ◽

Oil Refinery ◽

Hybrid Process ◽

Refinery Wastewater ◽

Oil Refinery Wastewater

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Clay-activated carbon adsorbent obtained by activation of spent bleaching earth and its application for removing Pb(II) ion

Environmental Science and Pollution Research ◽

10.1007/s11356-020-10473-0 ◽

2020 ◽

Vol 28 (1) ◽

pp. 711-723

Author(s):

Wenjie Liu ◽

Kun Yuan ◽

Kecheng Yin ◽

Shixiang Zuo ◽

Chao Yao

Keyword(s):

Activated Carbon ◽

Bleaching Earth ◽

Carbon Adsorbent

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Considering a membrane bioreactor for the treatment of vegetable oil refinery wastewaters at industrially relevant organic loading rates

Bioprocess and Biosystems Engineering ◽

10.1007/s00449-020-02294-9 ◽

2020 ◽

Vol 43 (6) ◽

pp. 981-995 ◽

Cited By ~ 1

Author(s):

Elham Abdollahzadeh Sharghi ◽

Azadeh Shourgashti ◽

Babak Bonakdarpour

Keyword(s):

Vegetable Oil ◽

Membrane Bioreactor ◽

Oil Refinery ◽

Organic Loading ◽

Loading Rates

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Microbiological Aspects of the Treatment of Joint Oil Refinery and Municipal Wastewaters

Water Science & Technology ◽

10.2166/wst.1986.0084 ◽

1986 ◽

Vol 18 (9) ◽

pp. 115-123 ◽

Cited By ~ 2

Author(s):

O. Petrović ◽

B. Dalmacija ◽

D. Misković ◽

M. Gantar ◽

S. Gajin

Keyword(s):

Activated Carbon ◽

Activated Sludge ◽

Municipal Wastewater ◽

Direct Method ◽

Oil Refinery ◽

Coliform Bacteria ◽

Organic Load ◽

Microbiological Analysis ◽

Municipal Wastewaters ◽

Microbiological Treatment

The bacteriological parameters of both the primary and secondary microbiological treatment of mixed oil refinery and municipal wastewaters have here been analyzed. Primary treatment was performed using activated sludge in a two grade bioreactor and for the secondary treatment, four columns with granular activated carbon were used. The first and the last column were aerated, whereas the two in the middle were without aeration. The ratios of the oil refinery (R) to municipal (M) wastewaters in the mixtures were 85:15, 70:30, 50:50 and 30:70. The microbiological analyses included the total bacterial count (direct method), the number of heterotrophs and oligotrophs with their ratios, number of coliforms, nitrifying and denitrifying bacteria (growing method). Activated sludge as well as microbial community on the activated carbon were investigated by using scanning electron microscopy. Chemical parameters, such as pH, COD, BOD, NH4+, NO2− and NO3− were determined by the standard methods. The performed microbiological analysis approved the validity of the joint oil refinery and municipal wastewater treatment. The decrease of the organic load in purified water ranged from 88 to 96 % (COD estimate) and from 91 to 99 % (BOD estimate) while the removal of individual groups of microorganisms varied from 55 to 99 %. The highest decrease was observed in the coliform bacteria (97 - 99 %). It is worth noting that a decrease in the total nitrogen in the system ranged from 59 to 74 % and that of nitrate from 56 to 61 % after secondary microbiological treatment.

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