Removal of Oil Products from Water Using a Combined Process of Sorption and Plasma Exposure to DBD

The paper presents the results of studies of a combined process involving the sorption of engine oil on a sorbent (diatomite) followed by regeneration of the sorbent by plasma-oxidative destruction of oil in DBD of atmospheric pressure in oxygen. The process parameters (gas flow rate, sorbent mass, power, treatment time), which provide the possibility of fivefold regeneration of the sorbent and 100% degree of oil decomposition, are revealed. It was found that the kinetics of oil degradation obeys the pseudo-first kinetic order equation with a rate constant of 0.017 s^?1. The energy efficiency of the decomposition was 0.169 molecules of oil per 100 eV of input energy. It is shown that treatment of the sorbent for 5 min leads to the complete decomposition of oil. The products of oil decomposition are carboxylic acids, aldehydes and CO₂. Complete removal of acids and aldehydes requires the time of about 40 min. The possible participation of ozone in the oxidative degradation of oil is discussed.     

Highly Efficient Nano-Structured Polymer-Based Membrane/Sorbent for Oil Adsorption from O/W Emulsion Conducted of Petroleum Wastewater

Wastewater disposal has been an important issue from an environmental perspective in terms of the serious damages and harms its contaminants may cause. Treatment of the wastewater, through the pollutants removal, either before disposal or for the reuse in certain industrial or agricultural purposes, is an essential process. In response to this environmental claim, a novel nano-structured, macro-porous, polymer-based membrane/sorbent was prepared, in terms of its highly open and porous structure with nano-structured sorbent interconnecting walls and based on high internal phase emulsion polymerization. This sorbent was used to remove the oil from polluted wastewater in a laboratory-scale through the application of a new method called flotation–nano-filtration. In order to avoid the water flux decline and simultaneously enhance the oil removal efficiency from the wastewater, the polymeric material, after being prepared and used in sheet form (membrane), was ultimately introduced to the wastewater system as small pieces, as with the intention of physically increasing the area of surface for the oil removal. The material performance studies applied several variables, namely, the physical sectioning of the material surface area, sorbent concentration, mixing speed, and mixing time. An efficiency of 99.75% for the oil removal from the polluted water was successfully achieved at 75 minutes mixing time, a sorbent concentration of 0.158 g/200 mL (each piece with dimensions of 2 mm × 3 mm × 1 mm), and 300 rpm mixing speed. The sorbent structure before and after the oil removal process was examined using scanning electron microscope and x-ray diffraction analysis.     

Sorption of Industrial Oil by Expanded Graphite

Sorption of industrial oil by expanded graphite prepared from residual graphite hydrosylfate at 300-900°C was studied. The sorption isotherms of both neat oil and oil from its aqueous suspension were measured. The sorption capacity for oil was studied as influenced by the specific surface area and specific volume of expanded graphite sorbent.     

The Conversion of Paper Mill Sludge into Absorbent for Oil Spill Sanitation – The Life Cycle Assessment

Summary: A production of a sorbent material from papermill sludge positively effects the environment instead of landfilling it and replacing an expanded polypropylene absorbent with papermill sludge sorbent for oil spill sanitations. The life cycle's assessment study shows a reduction of carbon footprint for more than 14 times and reduction of water consumption for 372 kg, based on the production of sorbent material for cleaning 1,000 kg of oil spill.A conversion of the papermill sludge into sorbent material prolongs paper products' life cycle for additional two cycles. A controlled incineration converts the used sorbent into inert meta-kaolin product which can be further used as hydrophilic sorbent material. In this way the papermill sludge's life cycle is efficiently closed.     

Sorption of Oil by Swollen Graphite: Contributions of Specific Surface Area and Specific Volume

Sorption of heavy oil by swollen graphites obtained from residual graphite hydrosulfate at 300- 900°C was studied. The dependence of the sorption capacity for oil on the specific surface area and specific volume of the swollen graphite sorbent was analyzed.     

气相色谱法分析非标柴油

应用气相色谱法建立了国标柴油和非标柴油中饱和烃的指纹图谱。通过分析国标柴油与非标柴油的指纹图谱特征,包括主峰碳数、碳数分布等,确定非标柴油与国标柴油的差异,为柴油的质量控制提供新方法。     

An X-ray Photoelectron Spectroscopic Study of the Poly-N-vinylpyrrolidone Desorption from the Surface of a Granulated Carbon Sorbent

The surface of a carbon sorbent modified with poly-N-vinylpyrrolidone was studied by X-ray photoelectron spectroscopy (XPS). The modification involves polymerization of N-vinylpyrrolidone on the carbon sorbent surface to form poly-N-vinylpyrrolidone. The elemental composition of the carbon sorbent surface before and after modification was determined by XPS. The electronic state of atoms of the identified elements on the surface was evaluated. The contact of the modified carbon sorbent with normal saline simulating the biological medium leads to partial removal (desorption) of the polymer from the granulated sample.

     

Separation of Emulsified Oil from Oily Wastewater by Functionalized Multiwalled Carbon Nanotubes

Rapid separation of emulsified oil from oily wastewater is one of the most serious challenges faced in the petroleum industry. In this study, a rapid and efficient demulsifier, functionalized multiwalled carbon nanotubes (F-MWCNTs), was prepared and used to separate the emulsified oil from oily wastewater. Demulsification test showed that the oil removal efficiency could attain as high as 99.8% at an optimal condition within a few minutes. The micro-morphology of the oil–water mixture before and after demulsification was observed using a polarizing microscope. It was found that the fine oil droplets experienced a rapid coalescence to form oil phase floating on the water surface. Mechanism of the demulsification process was discussed. The introduction of the functional groups (such as ?OH and ?COOH) on the surfaces of F-MWCNTs enable them good amphiphilicity and therefore easily arriving at the oil/water interface to destroy the interfacial protective film mainly composed of asphaltenes and resins. The findings in this work showed that the F-MWCNT is an efficient nanomaterial to remove emulsified oil from the oily wastewater and might have wide application prospects in the petroleum industry.     

Elaboration of the efficient technology of contact cleaning of wastewater from mineral oil

Complex investigations on development of efficient technology of contact cleaning of wastewater from oil pollution was carried out. This technology is based on processes of sorption, ion exchange, and subsequent sedimentation. It is shown that modified sorbents prepared on the basis of cellulose, polygorskite, and activated carbon effectively clean water from oil and oil products, where the degree of cleaning reaches over 98–99%. It is found that the sorption coefficient (K _a) increases with the increase in the dispersity of sorbents, and the consumption of sorbent (g/100 ml) decreases.     

Analysis of xylene in aqueous media using needle‐trap microextraction with a carbon nanotube sorbent

This paper describes a new extraction technique with needles and a sorbent based on carbon nanotubes to analyze trace amounts of three isomers of xylenes in aqueous samples. In this research, results have been compared with one commercial sorbent. The synthesized sorbent was prepared using sol–gel technology and was packed into 20 gauge needles, and the same size needle was used for packing the commercial sorbent. In the extraction process, a purge and trap sampling methodology is developed, so purging and trapping cycles were performed by a sampling pump. Optimized conditions for standard xylene samples have been obtained, and eight urine samples from workers that were exposed to xylene in the workplace were collected and analyzed. Experimental parameters such as limits of detection and quantification were investigated, and these two parameters were <1 μg/L.     

压力对塔里木原油四组分热解性能的影响

压力对深层油藏原油热化学过程的影响尚存在较大争议,为研究其在油藏原油热解成气过程中的作用机理,我们在450℃、5~40 MPa压力下对塔里木原油四组分(饱和分、芳香分、胶质和沥青质)进行了封闭体系的热解实验,通过气相色谱(GC)和气相色谱/质谱(GC/MS)分别对原油四组分热解反应的气体产物及饱和分热解过程的液态产物进行了分析。结果表明,在450℃、24 h及不同压力下,沥青质热解产气率高于胶质、芳香分和饱和分;四组分的气相热解产物中,C1的产率明显高于C2~C5组分。增大压力抑制沥青质、胶质及芳香分的热解产气过程而促进饱和分的热解产气过程。随压力的增大,饱和分热解的液态产物的主峰组分碳数先减小,再增大。压力低于20 MPa时,饱和分热解过程中以裂解反应为主;高于30 MPa时,增大压力有利于缩合反应。研究结果可为认识深层油藏原油的稳定程度及天然气的成因提供一定的理论参考。     

Effect of oxidation of activated carbon on its enrichment efficiency of metal ions: comparison with oxidized and non-oxidized multi-walled carbon nanotubes

The effect of oxidation of activated carbon (AC) with various oxidizing agents (nitric acid, hydrogen peroxide, ammonium persulfate) on preconcentration of metal ions (Cr3+, Mn2+, Pb2+, Cu2+, Cd2+ and Zn2+) from environmental waters prior to their flame atomic absorption spectroscopic analysis was investigated. The highest recoveries and adsorption capacities towards metal ions were achieved when using nitric acid-oxidized AC (sorbent AC-NA) as preconcentrating sorbent at pH 9. A preconcentration procedure was optimized using AC-NA as sorbent, which was then compared with non-oxidized AC in terms of analytical performance of the preconcentration method. Higher sensitivity, lower detection limits and wider linear ranges were achieved when AC-NA was used. The analytical performance of the method using AC-NA as preconcentrating sorbent was also compared with nitric acid-oxidized multi-walled carbon nanotubes (sorbent MWCNT-NA) and non-oxidized multi-walled carbon nanotubes (sorbent MWCNT). The analytical performance of the preconcentration method using AC-NA was close to MWCNT-NA, but AC-NA was better than non-oxidized MWCNT. Application of the optimized preconcentration method (using AC-NA sorbent) to environmental waters (tap water, reservoir water, stream water) gave spike recoveries of the metals in the range 63-104%.     

A novel porous carbon and its perspectives for the solid phase extraction of volatile organic compounds

A porous carbon sorbent prepared by controlled pyrolysis of saccharose in a matrix of silica gel was tested for the preconcentration of a variety of compounds differing in polarity and volatility (hydrocarbons, halocarbons, oxygenated compounds) in simulated and real air samples. The trapped components were desorbed off-line by liquid-(carbon disulphide and carbon disulphide with 1% methanol) and on-line by thermo-desorption in combination with HRCGC. Adsorption-desorption properties of the sorbent were evaluated according to the determined recovery values, whereby physicochemical interactions of both the sorbent and solute were taken into consideration. With oxygenated compounds recovery data indicate the presence of active sites on the surface of the sorbent.Dedicated to Professor Dr. Dr. h.c. mult. J. F. K. Huber on the occasion of his 70th birthday     

Biodesulfurization of Model Compounds and De-asphalted Bunker Oil by Mixed Culture

In this study, complicated model sulfur compounds in bunker oil and de-asphalted bunker oil were biodesulfurized in a batch process by microbial consortium enriched from oil sludge. Dibenzothiophene (DBT) and benzo[b]naphtho[1,2-d]thiophene (BNT1) were selected as model sulfur compounds. The results show that the mixed culture was able to grow by utilizing DBT and BNT1 as the sole sulfur source, while the cell density was higher using DBT than BNT1 as the sulfur source. GC-MS analysis of their desulfurized metabolites indicates that both DBT and BNT1 could be desulfurized through the sulfur-specific degradation pathway with the selective cleavage of carbon–sulfur bonds. When DBT and BNT1 coexisted, the biodesulfurization efficiency of BNT1 decreased significantly as the DBT concentrations increased (>0.1 mmol/L). BNT1 desulfurization efficiency also decreased along with the increase of 2-hydroxybiphenyl as the end product of DBT desulfurization. For real bunker oil, only 2.8 % of sulfur was removed without de-asphalting after 7 days of biotreatment. After de-asphalting, the biodesulfurization efficiency was significantly improved (26.2–36.5 %), which is mainly attributed to fully mixing of the oil and water due to the decreased viscosity of bunker oil.     

Investigation of a hybrid thermochemical Cu–Cl cycle,carbon capturing,and ammonia production process

In this paper, a new integrated system is proposed consisting of four subsystems, including a Cu–Cl cycle, a carbon capture cycle (sodium-based sorbent), an ammonia production unit, and a methanation unit. Carbon capturing cycle with sodium-based sorbent could adsorb 1.5 times more than other sorbents such as amine-based sorbent. Moreover, Cu–Cl cycle is one of the promising cycles in terms of economic and low temperature. Therefore, integrating these two cycles with ammonia and methane production unit is the novelty for this paper. Also, Aspen plus software was used to simulate the developed system to evaluate the process of the system. Moreover, sensitivity analysis and mass/energy balance are performed for the developed systems through the simulation. The energy required to capture carbon dioxide was found to be 6.313 MW per kg of CO₂, and the overall efficiency of the system is equal to 19.6%.

     

酸性模拟油的油水界面扩张粘弹性研究

考察了不同链长脂肪酸模拟油的扩张模量随扩张频率的变化规律,研究了碱和十二烷基磺酸钠对酸性模拟油界面扩张性质的影响.结果表明,不同脂肪酸模拟油的扩张模量随扩张频率和碳链长度的增加而增大.水相中加入十二烷基磺酸钠对酸性模拟油的扩张模量影响不大,对低工作频率下相角影响较大.无论有无十二烷基磺酸钠,水相中加入NaOH的浓度较低时酸性模拟油的扩张模量变化不大;NaOH浓度较高时,酸性模拟油的界面扩张模量增加,慢弛豫过程在界面上起主要作用,此时界面上可能形成了特殊结构.     

Highly branched polyethylene used as sorbents for oil-spill cleanup and separation

Highly branched polyethylene (HBPE) was developed into practical application as highly efficient sorbent material for oil-spill cleanup and oil/water separation. To obtain large-scale production of HBPE, a thermal stable Ni(II)-α-diimine catalyst for ethylene polymerization in our previous work has been employed to prepare the polyolefin material in a 10-liter polymerization reactor with a high activity (>10⁶ g_PE/mol_[Ni] h). The structure, molecular weight and distribution, thermal and mechanical properties were systematically characterized by NMR, ATR-FTIR, GPC, DSC, DMA, and TGA, respectively. Through simple but feasible cross-linking process, the HBPE-based oil-absorption materials with contact angles up to 111.5° were directly applied into absorption test using various oil and pure hydrocarbons. Reusability and recovery of the absorption materials and oil or solvents were probed by drying or using the distillation method. Oil/water separation was made to determine the hydrophobic and oleophilic nature of this material. Flory-Rehner polymer swelling theory is employed to study the structure–property relationship via determining the network structure including cross-linking density ρ_c and average molecular weight M_c between two cross-links. The mixture of sorbent material after absorbing oil was regarded as crude oil component to simulate oil refinery process by thermogravimetric analysis, providing an alternative approach for oil-collection.     

Comparison of the Sorption Capacity of Carbon Sorbents for Cleanup of Oil and Oil Products from Water Areas

Russian Journal of General Chemistry - The object of the research was to test the sorption capacity of carbon sorbents for cleanup of oil products from water. The goal of the work was to test...     

Assessment of the sorption capacity and regeneration of carbon dioxide sorbents using thermogravimetric methods

Adsorption methods using solid sorbents are an alternative to the absorption technology in the processes of purification gases from carbon dioxide. There is a need to rapidly assess the suitability of sorbents for use it in PSA, TSA, or VPSA installations. Important parameters which determine the quality of the sorbent are the sorption capacity of sorbent, selectivity to CO₂ and the possibility of regeneration. This paper presents the results of sorption/desorption of CO₂ study on the impregnated porous materials using thermogravimetric methods. Thermogravimetry allows for rapid assessment of sorption capacity and regeneration of the sorbents. Specially selected temperature program allowed to determine the sorption capacity of sorbents depending on the concentration of CO₂ in the gas mixture and temperature. Degree of sorbent purification was determined in desorption process.