Value Added Utilization of Petroleum Sludge Waste

Brine sludge (BS) is an industrial waste generated in large amounts by the Chlor-alkali industry and, usually disposed into industrial landfills. Because BS contains several chemical compounds, also presents a potential environmental impact. The feasibility of the utilization of brine sludge wastes for the preparation of value-added materials was investigated. The characterization of two brine sludge samples was performed in terms of chemical and physical composition, particle size distribution, X-ray diffraction (XRD), Fourier Transform Infrared Spectroscopy (FTIR), and thermal analysis (DTA/TG). Elements like Ca, Si, Na, Mg, Al, Cl, and Fe were identified in the samples. The XRD results confirmed the crystalline nature of compounds and indicated that the main compounds in brine sludge samples were calcium carbonate, sodium chloride, magnesium hydroxide, and quartz. FTIR showed the presence of varying functional groups like carbonate, siloxane, and hydroxide. The two brine sludge samples can be considered as a fine powder with the mean diameter (d50) of 4.984 µm and 24.574 µm, for the BS from Santo André and Cubatão, respectively. The results indicated that the brine sludge samples presented favorable characteristics to use limestone ﬁller and binder alternative to Portland cement in the nonstructural construction materials. The incorporation of brine sludge in geopolymeric materials is another possible use in sustainable construction material products. The production of value-added products from brine sludge will be an important contribution towards sustainable development adopted by the Chlor-alkali industry.

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THE POTENTIAL BIODEGRADATION HYDROCARBONS OF PETROLEUM SLUDGE WASTE BY CELL BIOMASS SPONGE Callysppongia sp.

10.31219/osf.io/rcndw ◽

2018 ◽

Author(s):

Ismail Marzuki ◽

Alfian Noor ◽

Nursiah La Nafie

Keyword(s):

Gravimetric Method ◽

Petroleum Contamination ◽

Marine Life ◽

Waste Sludge ◽

Hydrocarbon Component ◽

Cell Biomass ◽

Petroleum Sludge ◽

Degradation Rates ◽

Aromatic Components ◽

Sludge Waste

The toxicity of petroleum sludge is a serious threat to marine life. Necessary concrete steps petroleum contamination reduction through a search of potential marine materials degrade toxic components hydrocarbons. The sponge is one potential material reducing toxic properties of petroleum contamination. The research objective was to determine the potential Callyspongia sp sponge against the degradation of petroleum hydrocarbon sludge. Four variations of treatment used to determine the potential of sponge biomass, namely: the treatment I, II, III and IV. Indicators degradation is the formation of gas, the smell fermentation, pH changes and increase in the absorbance of the suspension of media degradation. The level degradation each treatment is determined gravimetric method and the known hydrocarbon component changes by using GC-MS. Unidentified gas, the smell of fermentation and changes in media of pH on average degradation occurs on the 15 days of contact for all treatments. Data showed degradation occurs absorbance maximum at 20- 25 days to contact. The highest degradation rates indicated by IV treatment (26.93 %), III (24.84 %), II (22.59 %), and I: (18.20 %). Found 20 kinds of components in the waste sludge aliphatic petroleum to form a homologous series nC10-nC30, and two aromatic components, namely the 2.7-dimethyl naphthalene and 1.4-dimethyl azulene. Callyspongia sp sponge biomass concluded at the highest IV treatment degrading aliphatic hydrocarbons, then treatment III, II and I, while the aromatic components are not degraded by biomass Callyspongia sp sponge at all treatments

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Petroleum Sludge as Raw Material for Cement Clinker Production

10.20944/preprints201806.0053.v1 ◽

2018 ◽

Author(s):

Ali Benlamoudi ◽

Aeslina Abdul Kadir ◽

Mohamed Khodja

Keyword(s):

Raw Materials ◽

Raw Material ◽

Cement Clinker ◽

Complete Elimination ◽

Free Lime ◽

Cement Production ◽

Petroleum Sludge ◽

Sludge Waste ◽

Clinker Production

The objective of this study is to investigate the performance of incorporating petroleum sludge waste as raw materials into the cement clinker production. The burnability and the structural analysis of the produced clinker were studied. The results showed that the addition of petroleum sludge into the clinker matrices improved the burnability of the clinker by lowering the free lime content. Moreover, 2.5% and 5% of this waste was effective and did not affect the quality of the cement clinker negatively. This study, which is the first to investigate the incorporation of petroleum sludge into cement production, provides also a complete elimination of this waste from the environment.

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Sustainable 2,5-furandicarboxylic synthesis by a direct 5-hydroxymethylfurfural fuel cell based on a bifunctional PtNiSx catalyst

Chemical Communications ◽

10.1039/d0cc06087a ◽

2020 ◽

Vol 56 (88) ◽

pp. 13611-13614

Author(s):

Jialu Wang ◽

Xian Zhang ◽

Guozhong Wang ◽

Yunxia Zhang ◽

Haimin Zhang

Keyword(s):

Fuel Cell ◽

Electric Energy ◽

Value Added ◽

Chemical Energy ◽

New Type

A new type of direct 5-hydroxymethylfurfural (HMF) oxidation fuel cell based on a bifunctional PtNiSx/CB catalyst not only transformed chemical energy into electric energy but also converted HMF into value-added 2,5-furandicarboxylic (FDCA).

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