Hydrogen Production Via Glycerol Dry Reforming Over Nickel Catalyst Supported On Sio2 And Al2o3 Modified By La

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Hydrogen Production Via Glycerol Dry Reforming Over Nickel Catalyst Supported on Sio2 and Al2O3 Modified by La

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Author : Farahani Sarajuddin
Publisher :
ISBN 13 :
Total Pages : 59 pages
Book Rating : 4.:/5 (953 download)

Book Synopsis Hydrogen Production Via Glycerol Dry Reforming Over Nickel Catalyst Supported on Sio2 and Al2O3 Modified by La by : Farahani Sarajuddin

Download or read book Hydrogen Production Via Glycerol Dry Reforming Over Nickel Catalyst Supported on Sio2 and Al2O3 Modified by La written by Farahani Sarajuddin and published by . This book was released on 2015 with total page 59 pages. Available in PDF, EPUB and Kindle. Book excerpt: Currently, energy has become the most demand for human needed. The utilization of future energy that is clean and sustainable becomes increasingly urgent because of dwindling petroleum reserves and mounting environmental concerns that are associated with fossil fuel. Hydrogen has been considered as the most suitable alternative for future energy aiming to reduce the dependence on fossil fuel and carbon based emission. Previously, non-renewable resources mainly coal, fossil fuel, petroleum coke, and petroleum residues has been widely used as the main feedstock for syngas (H2 and CO) production. However, due to the various factors such are global warming, the unstable price and availability of petroleum-based oil as well as the environmental pollution, the desirability towards biomass (glycerol) as the alternative energy feedstock has attract the world's attention. Glycerol which a by-product of biodiesel production is one of the most promising renewable sources associated environmental impacts from the usage of the fossil fuels in which it minimal carbon dioxide (CO2) emission and more preferable in fuels production. In recent years, the production of hydrogen from glycerol via steam reforming widely investigated, only a few studies on dry reforming with CO2. Therefore, this project was attempted to study the production of hydrogen via glycerol dry reforming over nickel (Ni) catalyst supported on silica oxide (SiO2) and alumina (Al2O3) modified with lanthanum (La). This works aims to synthesis, characterize, and screening Ni catalyst supported on SiO2 and Al2O3 with promoted in La solution using various techniques such are Scanning Electron Microscopy (SEM), X-Ray Diffraction (XRD) analysis , Mastersizer 2000 Ver.5.60 and elemental analysis. The catalyst characterization includes their porosity, structure, crystalline behaviour, and a physiochemical property is investigated. It shows that the promoted catalyst possessed smaller metal crystalline size, hence higher metal dispersion compared than both Ni/Al2O3 and Ni/SiO2 catalyst. In addition, the particle size distribution measured by Mastersizer measurement for promoted alumina catalyst gave higher size distribution which about 0.452 m2/g compared than silica oxides support. The reaction studies for syngas production at T=973 K for 3 hour reaction time with the inlet flowrate and carbon to to glycerol ratio is 0.03 ml/min and 1 had successfully produced H2 with glycerol conversion and H2 yield that peaked at 5.8% and 28% respectively over 3% La content. The catalyst screening shows that the alumina support gave excellent catalytic performance compared than silica oxide due to the larger surface area and smaller crystallite size that ensured accessibility of active catalytic area.

Catalysts for Syngas Production

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Author : Javier Ereña Loizaga
Publisher : MDPI
ISBN 13 : 3039365959
Total Pages : 184 pages
Book Rating : 4.0/5 (393 download)

Book Synopsis Catalysts for Syngas Production by : Javier Ereña Loizaga

Download or read book Catalysts for Syngas Production written by Javier Ereña Loizaga and published by MDPI. This book was released on 2020-12-10 with total page 184 pages. Available in PDF, EPUB and Kindle. Book excerpt: This Special Issue on “Catalysts for Syngas Production”, included in the Catalysts open access journal, shows new research about the development of catalysts and catalytic routes for syngas production, and the optimization of the reaction conditions for the process. This issue includes ten articles about the different innovative processes for syngas production. Synthesis gas (or syngas) is a mixture of hydrogen and carbon monoxide, with different chemical composition and H2/CO molar ratios, depending on the feedstock and production technology used. Syngas may be obtained from alternative sources to oil, such as natural gas, coal, biomass, organic wastes, etc. Syngas is a very good intermediate for the production of high value compounds at the industrial scale, such as hydrogen, methanol, liquid fuels, and a wide range of chemicals. Accordingly, efforts should be made on the co-feeding of CO2 with syngas, as an alternative for reducing greenhouse gas emissions. In addition, more syngas will be required in the near future, in order to satisfy the demand for synfuels and high value chemicals.

Catalytic Glycerol Hydrogenolysis to Produce 1,2-propanediol with Molecular Hydrogen and in Situ Hydrogen Produced from Steam Reforming

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Author : Yuanqing Liu
Publisher :
ISBN 13 :
Total Pages : 282 pages
Book Rating : 4.:/5 (973 download)

Book Synopsis Catalytic Glycerol Hydrogenolysis to Produce 1,2-propanediol with Molecular Hydrogen and in Situ Hydrogen Produced from Steam Reforming by : Yuanqing Liu

Download or read book Catalytic Glycerol Hydrogenolysis to Produce 1,2-propanediol with Molecular Hydrogen and in Situ Hydrogen Produced from Steam Reforming written by Yuanqing Liu and published by . This book was released on 2014 with total page 282 pages. Available in PDF, EPUB and Kindle. Book excerpt: Biodiesel has shown great promise to supplement the fossil diesel since it is a renewable energy resource and is environmentally friendly. However, the major obstacle to biodiesel large scale commercialization is the high production cost; so converting glycerol, the by-product of a biodiesel process, into value-added products is an efficient way to promote biodiesel production. 1,2-propanediol (1,2PD), also known as propylene glycol, is an important commodity chemical used for many applications such as polyester resins, liquid detergents and anti-freeze. It can be produced via dehydration of glycerol into acetol followed by hydrogenation of acetol into 1,2PD using a bi-functional catalyst. Currently high pressure gaseous hydrogen added for hydrogenation causes safety issues as well as additional costs of hydrogen purchasing, transportation and storage. Therefore, the utilization of the in situ hydrogen produced by steam reforming of a hydrogen carrier could be a novel route for this process. In this work, processes of glycerol hydrogenolysis to produce 1,2PD have been developed using different hydrogen sources, i.e. molecular hydrogen and in situ hydrogen produced by steam reforming. Three different preparation methods were attempted to prepare a Cu/ZnO/Al2O3 catalyst in a glycerol hydrogenolysis process, which were oxalate gel-coprecipitation, Na2CO3 coprecipitation and impregnation. The catalyst prepared by oxalate gel-coprecipitation showed the highest activity for production of 1,2PD. It was also found that the addition of alumina did not only improve the activity but also enhanced the stability of the Cu/ZnO catalyst as shown by the catalyst recycling experiments. The morphological and chemical properties of the catalysts were characterized via XRD, NH3 TPD, TGA and TEM. Compared with other preparation methods, the Cu/ZnO/Al2O3 catalyst prepared by oxalate gel-coprecipitation exhibited a well-mixed form for all the metals as suggested by the XRD and TGA results; the particle size of the Cu/ZnO/Al2O3 catalyst was smaller as shown in the XRD and TEM results, and also based on NH3 TPD analysis the Cu/ZnO/Al2O3 catalyst showed stronger acidic sites. When Ni was loaded onto the Cu/ZnO/Al2O3 catalyst by oxalate gel-coprecipitation, it was found that the activity for acetol hydrogenation was improved but the overall glycerol hydrogenolysis reaction was slower. This was mainly due to the reduced amount of strong acidic sites caused by the addition of Ni as observed from the NH3 TPD results. 2wt% Pd supported on a Cu/MgO/Al2O3 catalyst was used in this process. Higher reaction rate and higher 1,2PD selectivity could be obtained compared with a Cu/ZnO/Al2O3 catalyst. However, a significant deactivation was observed when the spent catalyst was used. The catalyst deactivation was mainly due to catalyst sintering during the reaction resulting in a larger particle size as suggested by XRD results. The activation energies for the glycerol hydrogenolysis reaction using Cu/ZnO/Al2O3 and Pd supported on Cu/MgO/Al2O3 catalysts have been calculated. The activation energy was calculated to be 69.39kJ/mole using a Cu/ZnO/Al2O3 catalyst and 113.62kJ/mol using a Pd supported on Cu/MgO/Al2O3 catalyst. It is suggested that the reaction was chemically kinetically controlled using both catalysts and the reaction using the Pd supported on Cu/MgO/Al2O3 catalyst was more temperature dependent. It was found that the 1,2PD selectivity was strongly dependent on hydrogen pressure. The low 1,2PD selectivity at lower hydrogen pressure was due to the formation of by-products caused by side reactions with acetol. The kinetic data of acetol hydrogenation suggested that the acetol hydrogenation step was significantly faster than the overall reaction and hence the glycerol dehydration step was the rate-determining-step. In the glycerol hydrogenolysis process using in situ hydrogen, the activities of the Cu/ZnO/Al2O3 catalysts prepared by different methods were determined and the experimental results show that the catalyst prepared by oxalate gel-coprecipitation has the best catalytic activity for glycerol conversion and 1,2PD selectivity. With Ni loaded onto a Cu/ZnO/Al2O3 catalyst, the 1,2PD selectivity was improved and the glycerol conversion was lower. It might be because Ni could improve the steam reforming activity to produce more hydrogen, but due to the reduced strong acidic sites based on the NH3 TPD results glycerol conversion was decreased. Cu/MgO/Al2O3 catalysts prepared by oxalate gel-coprecipitation were used in this process and the activity was found to be higher, i.e. higher glycerol conversion and 1,2PD selectivity, compared with the Cu/ZnO/Al2O3 catalyst due to a higher amount of acidic sites based on the NH3 TPD results; the Cu/Mg/Al composition was optimized. When Ni was added into a Cu/MgO/Al2O3 catalyst, it was found that with only 1mole% Ni loaded, the glycerol conversion was lower than that without Ni loaded and the 1,2PD selectivity was slightly improved; when the Ni loading was increased to 5mole%, the catalyst was almost completely inactive, since when 5mole% Ni was loaded, the acidic sites were almost completely eliminated as observed from the NH3 TPD results. When Pd was added onto a Cu/MgO/Al2O3 catalyst the 1,2PD selectivity was significantly improved. When Pd was loaded, more surface hydrogen atoms were provided as observed from the H2 TPD results. Cu/ZnO/Al2O3 and Cu/MgO/Al2O3 catalysts have been recycled and reused to investigate the stability of the catalysts. All the catalysts were deactivated after they were recycled and reused, since it was apparent that catalyst sintering occurred during the reaction resulting in a larger particle size based on the XRD results. The deactivation of the spent catalyst was also possibly due to the formation of carbonate when the metals were contacted with CO2 which was formed via steam reforming.

Role of Mathematical Modeling in Advanced Power Generation Systems

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Author : Arijit Ganguli
Publisher : Frontiers Media SA
ISBN 13 : 2832538800
Total Pages : 153 pages
Book Rating : 4.8/5 (325 download)

Book Synopsis Role of Mathematical Modeling in Advanced Power Generation Systems by : Arijit Ganguli

Download or read book Role of Mathematical Modeling in Advanced Power Generation Systems written by Arijit Ganguli and published by Frontiers Media SA. This book was released on 2023-11-13 with total page 153 pages. Available in PDF, EPUB and Kindle. Book excerpt: Energy demands throughout the globe has been increasing and the detrimental effects of carbon emissions on the environment by use of non-renewable resources has impacted life on the planet. The changing climate has caused an increase in natural calamities all over the globe. Many countries in the world have started to produce power using renewable resources like solar, biomass, wind energy, nuclear energy and green fuels. Though there are several technologies for power generation using the above sources, efficient design of these systems still needs lot of research. Mathematical modeling would play a vital role in design of state of the art technologies. Advanced nuclear power plants need special mention since they involve naturally driven safety systems where the complex phenomena of boiling, condensation and thermal stratification take place. These are difficult to model as there is more than one phase coupled with turbulence models, near wall phenomena, coalescence and break up, etc. Scaling up of such systems and their innovative design to reduce stratification requires the help of mathematical modeling. Other opportunities include Computational Fluid Dynamics (CFD) modeling for design of wind turbines for power generation using wind energy. Power generation from biomass involves use of gasifiers which has complex set of reactions and mostly two or three phases which are difficult to model using CFD at industrial scales.

Hydrogen Production Through Water Gas Shift Reaction Over Nickel Catalysts

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Author : Agus Haryanto
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (566 download)

Book Synopsis Hydrogen Production Through Water Gas Shift Reaction Over Nickel Catalysts by : Agus Haryanto

Download or read book Hydrogen Production Through Water Gas Shift Reaction Over Nickel Catalysts written by Agus Haryanto and published by . This book was released on 2008 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The progress in fuel cell technology has resulted in an increased interest towards hydrogen fuel. Consequently, water gas shift reaction has found a renewed significance. Even though iron- and copper-based catalysts have been used for water gas shift reaction for decades, the catalysts are not strong enough to bring carbon monoxide concentration to a level tolerable for a fuel cell working at low temperatures. This study is focused on hydrogen production from water gas shift reaction using a nickel catalyst. Literature review revealed that nickel is one of the promising catalysts for water gas shift reaction. A thermodynamic analysis proved that exothermic water gas shift reaction is thermodynamically favorable at low temperatures but kinetically limited, and vice versa at higher temperatures. Initial experiments using 12 catalysts supported over monolith alumina revealed that nickel supported on ceria-promoted monolith alumina (Ni/CeO2-Al2O3) performed best, especially at 500°C. At this temperature and steam flowrates of 0.1-0.5 ml/min, the nickel catalyst had an activity of 94-99%, H2 yield of 55-61 vol.%, and H2 selectivity of 77-99%. A second set of experiments examined nine nickel based catalysts using different supports (mostly in powder form) which also demonstrated that Ni/CeO2-Al2O3 is the most promising catalyst for high temperature (450°C) water gas shift reaction. When nickel loading was varied from 1 to 8% (w/w), it was apparent that the catalyst performance increased with the nickel loading. Powder alumina resulted in better catalysis than monolith alumina. In this experiment, it was evident that the presence of minor amounts (1% (w/w) of the nickel loading) of a dopant material that included cobalt, chromium, molybdenum, or ruthenium affected the catalytic activity of the primary catalyst. The addition of cobalt or chromium resulted in positive effect on the performance of Ni/CeO2-Al2O3 catalyst. There was no appreciable effect due to the addition of ruthenium, and there was negative effect owing to the presence of molybdenum. Undoped, cobalt-doped, or chromium-doped Ni/CeO2-Al2O3 catalyst performed much better for water gas shift reaction at 450°C than that of a commercial (control) catalyst. A kinetic study revealed that the activation energy of water gas shift reaction over Ni/CeO2-Al2O3 was to be 104.5 kJ/mol.

Hydrogen Production by the Cataylitic Auto-Thermal Reforming of Synthetic Crude Glycerol in a Packed Bed Tubular Reactor

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Author : Ahmad Mahmoud Abdul Ghani
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (13 download)

Book Synopsis Hydrogen Production by the Cataylitic Auto-Thermal Reforming of Synthetic Crude Glycerol in a Packed Bed Tubular Reactor by : Ahmad Mahmoud Abdul Ghani

Download or read book Hydrogen Production by the Cataylitic Auto-Thermal Reforming of Synthetic Crude Glycerol in a Packed Bed Tubular Reactor written by Ahmad Mahmoud Abdul Ghani and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Production of Hydrogen by Steam Reforming of Glycerol Over Nickel Supported Catalyst

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Author : Nurul Huda Zamzuri
Publisher :
ISBN 13 :
Total Pages : 105 pages
Book Rating : 4.:/5 (96 download)

Book Synopsis Production of Hydrogen by Steam Reforming of Glycerol Over Nickel Supported Catalyst by : Nurul Huda Zamzuri

Download or read book Production of Hydrogen by Steam Reforming of Glycerol Over Nickel Supported Catalyst written by Nurul Huda Zamzuri and published by . This book was released on 2012 with total page 105 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Catalysts for Hydrogen Production by the Auto-Thermal Reforming of Glycerol

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Author : Faezeh Sabri
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (13 download)

Book Synopsis Catalysts for Hydrogen Production by the Auto-Thermal Reforming of Glycerol by : Faezeh Sabri

Download or read book Catalysts for Hydrogen Production by the Auto-Thermal Reforming of Glycerol written by Faezeh Sabri and published by . This book was released on 2013 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Sustainable Hydrogen Production Via Glycerol Steam Reforming with and Without In-situ CO2 Removal

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Author : Marziehossadat Shokrollahi Yancheshmeh
Publisher :
ISBN 13 :
Total Pages : 251 pages
Book Rating : 4.:/5 (115 download)

Book Synopsis Sustainable Hydrogen Production Via Glycerol Steam Reforming with and Without In-situ CO2 Removal by : Marziehossadat Shokrollahi Yancheshmeh

Download or read book Sustainable Hydrogen Production Via Glycerol Steam Reforming with and Without In-situ CO2 Removal written by Marziehossadat Shokrollahi Yancheshmeh and published by . This book was released on 2019 with total page 251 pages. Available in PDF, EPUB and Kindle. Book excerpt: Over the past few decades, hydrogen has attracted a great deal of attention as a green energy carrier. Currently, more than 95 % of hydrogen is produced from fossil fuels, which has been questioned by the depletion of resources andincrease of greenhouse gas emissions. Therefore, renewable, carbon-neutral resources such as biomass and biomass-derived chemicals has been receiving a growing interest as an option to produce hydrogen. As a main by product in the biodiesel manufacturing process, glycerol has emerged as a promising source for hydrogen production. Although steam reforming (SR) is being recognized as a promising approach for converting glycerol to hydrogen, this process faces a number of challenges including the presence of equilibrium-limited reactions and the need of an expensive downstream purification system. To alleviate these problems, a promising alternative is sorption enhanced steam reforming (SESR) process, in which steam reforming, water gas shift (WGS), and CO2 capture reactions occur simultaneously using areforming catalyst and a CO2solid sorbent. In this process, CO2 removal occurs simultaneously with the reforming reaction, shifting the WGS reaction towards hydrogen production and producing a hydrogen-enriched gas stream in a single step. The key factors in the successful application of this technology are mainly: (i) reforming catalysts and CO2 sorbents that can work efficiently under the harsh conditions of SESR process and (ii) mixing pattern of catalyst and sorbent. This thesis focuses on the development of efficient catalyst and catalyst-sorbent bifunctional materials for sustainable hydrogen production by SR and SESR of glycerol (SRG and SESRG). More specifically, four main objectives of our workare: (i) investigating the influence of steam addition during either carbonation or calcination on the CO2 capture performance of Ca9Al6O18-CaO sorbent, (ii) developing Ca9Al6O18−CaO/xNiO (x = 15, 20, and 25 wt.%) and Ca9Al6O18−CaO/20NiO−yCeO2(y = 5, 10, and 15 wt %) catalyst-sorbent bifunctional materials and studying the influence of CeO2 on the material stability incyclic SESRG/regeneration operation, (iii) proposing a new method for the synthesis of a more readily reducible NiAl2O4 spinel and studying the influence of CeO2 addition on its catalytic performance, and (iv) novel synthesis of two Ni-CaO-based catalyst-sorbent bifunctional materials with highlyuniform distribution of catalytic active sites. (i) CO2 capture performance of Ca9Al6O18-CaO sorbent was investigated in the presence of two concentrations of steam, 2.3 and 9.5 vol. %.The obtained results revealed that the sorbent reactivity was remarkably enhanced for both concentrations of steam injected during carbonation step. In the case of steam addition during calcination, the CO2 capture performance was influenced negatively or positively depending on the concentration of steam. For 2.3 vol.% steam, the sorbent reactivity was worsened, while the presence of 9.5 vol.% steam led to an increase in the CO2capture capacity during 9 initial cycles.(ii) Two series of catalyst-sorbent bifunctional materials were developed for the sustainable production of high-purity hydrogen by SESRG. Using Ca9Al6O18−CaO/xNiO (x = 15,20, and 25 wt.%) materials during five SESRG/regeneration cycles revealed that their reactivity was rapidly deteriorated mainly due to CaO sintering and coke deposition. As a result, the pre-breakthrough time and hydrogen yield decreased notably over five cycles. Interestingly, the addition of CeO2 to the most efficient catalyst (Ca9Al6O18−CaO/20NiO) led to a significant enhancement in material stability during cyclic operation. The bifunctional material promoted with 10 wt.% of CeO2 demonstrated the best performance, with a stable H2purity of ∼98% and H2yield of ∼91% over 20SESRG/regeneration cycles. (iii) A novel method, involving one-or two-step calcination of Ni-Al mixed-metal alkoxide((Ni-Al)-Glycerate), was developed for the synthesis of NiAl2O4 spinel. For comparison purposes, the NiAl2O4 spinel was also synthesized throughthe conventional co-precipitation method followed by two-step calcination technique. The characterization results revealed that the synthesis of NiAl2O4 spinel through two-step calcination of (Ni-Al)-Glycerateresulted in the formation of a more easily reducible catalyst and a more developed porous structure. This sample showed the highest H2yield (76.38 %) and glycerol conversion into gaseous products (95.42 %) when compared to other two samples. In order to avoid or reduce coke formation, 10 wt.% of CeO2 was incorporated into the sample prepared by two-step calcination of (Ni-Al)-Glycerate. The thermogravimetric analysis of the CeO2-promoted catalyst after SRG reaction revealed that the coke formation was almost completely suppressed. The method developed for the synthesis of NiAl2O4 spinel in the previous work was combined with the ethanol/water treatment of CaO-based sorbents to synthesistwo new NiCaO-based catalyst-sorbent bifunctional materials for hydrogen production via SESRG. Cyclic SESRG/regeneration experiments showed that the Ca3Al2O6-CaO/NiO-CeO2 bifunctional material possessed higher activity and stability when compared to NiAl2O4-CaO/NiAl2O4-CeO2. The former one exhibited a high constant H2 purity of around 96% over 10 cycles, while the latter showed a H2 purity of approximately 90% over the first 6 cycles, followed by the further decrease to 86 % over the last 4 cycles. In conclusion, the results presented in this thesis show that SESRG can be a very promising approach for high-purity hydrogen production in a single step, providing that the employed catalyst-sorbent bifunctional materials possess uniform distribution of catalytic and sorption active sites on nanoscale and high resistance against CaO sintering and coke formation. To prepare catalyst-sorbent bifunctional materials with these characteristics, two main approaches were employed in this work: (i) developing new synthesis methods that provide a homogeneous distribution of targeted elements (Ca, Ni, Al, and Ce in this study) and (ii) using CeO2 as a promising promoter to reduce or suppress coke formation and enhance the cyclic stability of CaO particles.

Catalytic Hydrogenolysis of Glycerol to 1-propanol Using Bifunctional Catalysts in an Aqueous Media

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Author : Chau Thi Quynh Mai
Publisher :
ISBN 13 :
Total Pages : 208 pages
Book Rating : 4.:/5 (13 download)

Book Synopsis Catalytic Hydrogenolysis of Glycerol to 1-propanol Using Bifunctional Catalysts in an Aqueous Media by : Chau Thi Quynh Mai

Download or read book Catalytic Hydrogenolysis of Glycerol to 1-propanol Using Bifunctional Catalysts in an Aqueous Media written by Chau Thi Quynh Mai and published by . This book was released on 2016 with total page 208 pages. Available in PDF, EPUB and Kindle. Book excerpt: Biodiesel is an attractive alternative fuel obtained from renewable resources and glycerol is produced as a major byproduct in the biodiesel industry. Upgrading glycerol to other valuable chemicals will contribute to an economic sustainability of the biodiesel industry. Valuable commodity chemicals such as 1,2-propanediol (1,2-PD), 1,3-Propanediol (1,3-PD) and 1-Propanol (1-PO) could be produced by catalytic hydrogenolysis. Although much work has been done towards the conversion of glycerol to 1,2-PD and 1,3-PD, the direct conversion of glycerol to 1-PO has not received much attention. From an industry point of view, the production of 1-PO is very interesting. 1-PO has potential applications as a solvent, organic intermediate and can be dehydrated to produce “green“ propylene for the production of polypropylene. Therefore, the development of a new process for the efficient conversion of glycerol to 1-PO will contribute to new “green” chemicals which will benefit the environment and make biodiesel processes more profitable as 1 kg of glycerol is produced for every 10 kg of biodiesel. In this research, heterogeneous hydrogenolysis of glycerol to 1-PO was carried out in a batch reactor using a bi-functional catalyst (prepared by a sequential impregnation method) in water, a green and inexpensive liquid medium. It was found that a bi-functional solid catalyst consists of a non-noble metal Ni for hydrogenation and an acidic function of silicotungstic acid (HSiW) supported on alumina (Al2O3) to be an active catalyst for the one-pot synthesis of 1-PO from glycerol and H2 in a liquid phase reaction. A systematic study has been carried out to assess the effects of operating conditions on the glycerol conversion. The catalysts were characterized using BET, XRD, NH3-TPD, TPR, TGA and FTIR techniques. The effect of different metals (Cu, Ni, Pd, Pt and Cs) supported 30HSiW/Al2O3 catalyst, heteroatom substitution (HSiW, HPW and HPMo) on NiHPA/Al2O3 catalysts and 10Ni/30HSiW supported on different supports (Al2O3, TiO2 and MCM-41) were studied to determine to what extent these components affect the catalytic activity of the NiHPAs/Al2O3 catalysts for the hydrogenolysis of glycerol. The effect of the preparation process on the catalytic activity and the structure of the catalyst was also studied. It was found that 1%Pt is the best promoter for the production of 1-PO in a stainless steel batch reactor (the selectivity to 1-PO was 59.2% at 45.3% conversion of glycerol). 1%Ni, a much cheaper metal, has fairly comparable reactivity to 1%Pt (the selectivity to 1-PO was 54.7% at 39.2% converison of glycerol). It was reported that the catalytic activity and thermal stability towards decomposition of the catalyst dependends on heteroatom substitution. Using NH3-TPD, XRD and FTIR it was found that while the Keggin-structure of HSiW and HPW supported catalyst is stable up to a treatment temperature of 450oC, the Keggin-structure of a HPMo supported catalyst was decomposed even at a treatment temperature of 350oC; the decomposition of HPMo into MoO3 is likely to be responsible for the inactivity of the NiHPMo catalyst for glycerol conversion. HPW and HPMo lost their acidity much more readily than HSiW, and a HSiW supported catalyst was the best candidate for 1-PO production. The catalytic activity and the acidity of 10Ni/30HSiW supported catalyst are influenced strongly by supporting 10Ni/30HSiW on different supports. Using XRD and FTIR it was found that the thermal treatment during the preparation process indeed affected the structure and the activity of the catalyst to some extent. The loss in activity of the catalyst, the decomposition in Keggin-structure of HPAs occur if the treatment temperature is higher than 450oC. It is important to note that this is the first report on a 10Ni/30HSiW suported catalyst developed for the one-pot hydrogenolysis of glycerol in a water media with high conversion of glycerol (90.1%) and high selectivity to 1-PO (92.9%) at 240oC and 580PSI hydrogen using a Hastelloy batch reactor. The activation energy Ea of this reaction is 124.1kJ/mol. Reaction pathways for the hydrogenolysis of glycerol using a bifunctional catalyst 10Ni/30HSiW/Al2O3 is proposed. It is believed that acidity plays an important role for the dehydration and Ni plays an important role for the hydrogenation. It is suggested that with acidic catalysts, the main route for the formation of 1-PO from glycerol is via either the hydrogenation of acrolein or further hydrogenolysis of 1,2-PD (and 1,3PD) where 1,2-PD (and 1,3-PD) and acrolein are the intermediate species in the formation of 1-PO from glycerol. The formation of 1,2-PD and 1,3-PD takes place through an initial dehydration of the primary or secondary hydroxyl groups on glycerol to give acetol or 3- hydroxylpropanaldehyde (3-HPA). The hydrogen activated on the metal facilitates the hydrogenation of acetol or 3-HPA to release 1,2-PD or 1,3-PD respectively. However, dehydration of 3-HPA on the acid sites forms acrolein. Further hydrogenolysis of diols or hydrogenation of acrolein produces 1-PO. 1,3-PD that is a very high value-added chemical can also be obtained from hydrogenolysis of glycerol using a Ni-HSiW supported catalyst. To improve the selectivity of 1,3-PD it is suggested that the catalyst should have high hydrogenation activity for the intermediate 3-HPA. The equilibrium between acrolein and 3-HPA in the hydration-dehydration step is important, so it is essential to tune the bi-functional catalyst and the conditions of the reaction to form 1,3-PD from 3-HPA. A study of promoter effects for the activity of catalyst to form 1,3-PD is recommended.

Basic Principles in Applied Catalysis

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Author : Manfred Baerns
Publisher : Springer Science & Business Media
ISBN 13 : 3662059819
Total Pages : 540 pages
Book Rating : 4.6/5 (62 download)

Book Synopsis Basic Principles in Applied Catalysis by : Manfred Baerns

Download or read book Basic Principles in Applied Catalysis written by Manfred Baerns and published by Springer Science & Business Media. This book was released on 2013-03-09 with total page 540 pages. Available in PDF, EPUB and Kindle. Book excerpt: Written by a team of internationally recognized experts, this book addresses the most important types of catalytic reactions and catalysts as used in industrial practice. Both applied aspects and the essential scientific principles are described. The main topics can be summarized as follows: heterogeneous, homogeneous and biocatalysis, catalyst preparation and characterization, catalytic reaction engineering and kinetics, catalyst deactivation and industrial perspective.

Catalytic Conversion of Energy Resources into High Value-Added Products

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Author : José Luis Pinilla
Publisher : MDPI
ISBN 13 : 3036510745
Total Pages : 134 pages
Book Rating : 4.0/5 (365 download)

Book Synopsis Catalytic Conversion of Energy Resources into High Value-Added Products by : José Luis Pinilla

Download or read book Catalytic Conversion of Energy Resources into High Value-Added Products written by José Luis Pinilla and published by MDPI. This book was released on 2021-09-02 with total page 134 pages. Available in PDF, EPUB and Kindle. Book excerpt: Developing active, selective and energy-efficient heterogeneous catalysts is of paramount importance for the production of high value-added products from energy resources in a more sustainable manner. In this Special Issue of Energies, we provide a showcase of the latest progress in the development of cleaner, more efficient processes for the conversion of these feedstocks into valuable fuels, chemicals and energy. Most of the works collected are focused on the conversion of biomass which clearly reflects the paramount importance that the biorefinery concept will play in the years to come.

Synthesis Gas Production from Glycerol Steam Reforming Over Alumina Supported Bimetallic Co-Ni Catalyst

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Author : Chin Kui Cheng
Publisher :
ISBN 13 :
Total Pages : 259 pages
Book Rating : 4.:/5 (953 download)

Book Synopsis Synthesis Gas Production from Glycerol Steam Reforming Over Alumina Supported Bimetallic Co-Ni Catalyst by : Chin Kui Cheng

Download or read book Synthesis Gas Production from Glycerol Steam Reforming Over Alumina Supported Bimetallic Co-Ni Catalyst written by Chin Kui Cheng and published by . This book was released on 2011 with total page 259 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Hydrogen Production from Catalytic Methanol Reforming Over Nickel Supported Zinc Oxide Catalyst with Ultraviolet Light

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Author : SahrizulAman Asri
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (96 download)

Book Synopsis Hydrogen Production from Catalytic Methanol Reforming Over Nickel Supported Zinc Oxide Catalyst with Ultraviolet Light by : SahrizulAman Asri

Download or read book Hydrogen Production from Catalytic Methanol Reforming Over Nickel Supported Zinc Oxide Catalyst with Ultraviolet Light written by SahrizulAman Asri and published by . This book was released on 2013 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Hydrogen Production from Acetic Acid-phenol Steam Reforming Over Bimetallic Nickel-cobalt Supported on Lanthanum Oxide-gamma Aluminium Oxide Catalyst

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Author : Bahador Nabgan
Publisher :
ISBN 13 :
Total Pages : 100 pages
Book Rating : 4.:/5 (96 download)

Book Synopsis Hydrogen Production from Acetic Acid-phenol Steam Reforming Over Bimetallic Nickel-cobalt Supported on Lanthanum Oxide-gamma Aluminium Oxide Catalyst by : Bahador Nabgan

Download or read book Hydrogen Production from Acetic Acid-phenol Steam Reforming Over Bimetallic Nickel-cobalt Supported on Lanthanum Oxide-gamma Aluminium Oxide Catalyst written by Bahador Nabgan and published by . This book was released on 2014 with total page 100 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Hydrogen Production from Sorption Enhanced Steam Reforming of Biogas Via Nickel Over Modified CaO Sorbent

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Author : Janewit Phromprasit
Publisher :
ISBN 13 :
Total Pages : 330 pages
Book Rating : 4.:/5 (111 download)

Book Synopsis Hydrogen Production from Sorption Enhanced Steam Reforming of Biogas Via Nickel Over Modified CaO Sorbent by : Janewit Phromprasit

Download or read book Hydrogen Production from Sorption Enhanced Steam Reforming of Biogas Via Nickel Over Modified CaO Sorbent written by Janewit Phromprasit and published by . This book was released on 2016 with total page 330 pages. Available in PDF, EPUB and Kindle. Book excerpt: This research composed of two parts: (i) CO2 sorption study and (ii) hydrogen production performance tests using multifunctional catalysts. In the CO2 sorption section, the first group of metals (Mg2+, Sr2+ and Al3+) was loaded on CaO and tested the CO2 sorption and desorption performance over 10 cycles. Mg-CaO-HW offered the best stability in terms of CO2 sorption/desorption. Whereas Al-CaO-HW and Sr-CaO-HW exhibited a decrease in CO2 sorption capacity corresponding to 6 and 12% reduction. The second group of metals loading on CaO were Zr4+, Ce4+ and La3+. The results indicated that Zr-CaO-HW and Ce-CaO-HW possessed stable CO2 capacities over the 10 cycles. On the other hand, La-CaO-HW showed a decrease in the CO2 sorption capacity of 16%. This was due to the low-temperature oxygen storage properties of Zr-CaO-HW and Ce-CaO-HW, which enhanced the mobility of oxygen. In the section of H2 production, three sequences of Ni2+ loading on modified CaO were investigated. The results showed that Ni-Al-CaO-HW is the best multifunctional catalyst. The stability of Ni-Al-CaO-HW shows that CH4 conversion is still higher than 90% during the pre-breakthrough period for 5 cycle operations. Furthermore, Ni2+ was loaded on the modified sorbents Zr-CaO-HW, Ce-CaO-HW and La-CaO-HW. The results showed that Ni-Zr-CaO-HW and Ni-Ce-CaO-HW produced H2 at stable purities but with decreasing CH4 conversions. This was attributed to the loss of nickel active sites at the surface of the multifunctional catalysts due to the formation of CaCO3.

The Development and Characterization of Ni-Cu/Al2O3 Catalyst for Hydrogen Production Via Multi-fuel Reforming

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Author : Marcin Khzouz
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (16 download)

Book Synopsis The Development and Characterization of Ni-Cu/Al2O3 Catalyst for Hydrogen Production Via Multi-fuel Reforming by : Marcin Khzouz

Download or read book The Development and Characterization of Ni-Cu/Al2O3 Catalyst for Hydrogen Production Via Multi-fuel Reforming written by Marcin Khzouz and published by . This book was released on 2014 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: