Utilization of greenhouse gases

This book brings together a special collection of papers on the utilization of greenhouse gases. Innovative techniques including biochemical fixation, plasma conversion, and microwave application, are a special feature of this book. The fundamental, economic, technical, and future development issues with these technologies are discussed in detail. Some novel reactor configurations and catalyst designs for the utilization of greenhouse gases are also discussed. Typically, these new reactors and catalysts represent the development of environmentally friendly chemical processes.

Preface Section 1: General Overview 1: Michele Aresta: Carbon dioxide utilization: Greening both the energy and chemical industry. An overview Section 2: Simultaneous Utilization 2: Zhen Yan et al.: Catalysis in the simultaneous utilization of greenhouse gases 3: Linsheng Wang, Kazuhisa Murata, and Megumu Inaba: Novel highly active reforming catalyst system and production of pure H[2 from CH[4 and CO[2 with Pd-Ag membrane reactor 4: G. Rodriguez et al.: Dry reforming of ethane on trimetallic perovskites LaCo[xFe[1[-[xO[3. Characterisations and reactivity 5: Korada Supat et al.: Combined Carbon Dioxide and Steam Reforming with Methane in Low Temperature Plasmas 6: Yue-ping Zhang et al.: Influence of Electrode Configuration on Direct Methane Conversion with CO[2 asa Co-reactant Using Dielectric-barrier Discharges 7: Andras Erdoehelyi, Tamas Szailer, and Eva Novak: Effect of H2S on the reaction of CH4 with CO2 over titania-supported noble metal catalysts Section 3: Organic Synthesis with CO[2 as a Reactant 8: Wei Wei, Tong Wei, and Yuhan Sun: A Novel Route for Carbon Dixode Cyloaddition to Propylene Carbonate 9: Tong Wei et al.: Catalytic Behavior of Calcium Oxide for Synthesis of Dimethyl Carbonate from Propylene Carbonate and Methanol near Room Temperature 10: Fa-hai Cao et al.: Catalytic Esterification of Carbon Dioxide and Methanol for the Preparation of Dimethyl Carbonate 11: Satoshi Kaneco et al.: Electrochemical Reduction of CO[2 on Cu Electrode in Methanol at Low Temperature 12: Son-ki Ihm et al.: CO[2 hydrogenation over copper-based hybrid catalysts for the synthesis of oxygenates 13: Hong-Bin Zhang et al.: Methanol Synthesis from H[2/CO/CO[2 over CNTs-Promoted Cu-ZnO-Al[2O[3 Catalyst:CH[3OH Synthesis over Cu[iZn[jAl[k-O[x/CNTs Section 4: Biochemical Fixation of CO[2 14: Zhongyi Jiang et al.: Enzymatic Conversion of Carbon Dioxide to Methanol by Dehydrogenases Encapsulated in Sol-gel Matrix 15: Licheng Sun et al.: Towards solar energy conversion into fuels: Design and synthesis of Ruthenium-Manganese Supramolecular complexes to mimic the function of photosystem II. Section 5: Methane Valorization 16: Zhenhua Li et al.: Catalytic stability of Ni catalyst for partial oxidation of methane to syngas 17: Peter-Paul H. J. M. Knops-Gerrits: Benzene and methane partial oxidation in new iron zeolite topologies 18: Qijian Zhang et al.: Direct partial oxidation of methane to methanol in a specially design reactor Section 6: Conversion of Methane and Other Greenhouse Gases via Plasmas or Microwave Heating 19: Thomas Hammer, Thomas Kappes, and Wolfgang Schiene: Plasma catalytic hybrid reforming of methane 20: S. Kado et al.: Methane coupling and reforming using non-equilibrium pulsed discharge at room temperature: Catalyst-pulsed discharge combined system 21: Mamoru Okumoto et al.: Evaluation of a high-energy transform efficiency pulse power supply for methane plasma conversion 22: L. Daniel Conde and Steven L. Suib: Factors affecting the catalytic activation of methane via microwave heating 23: Franz-Josef Spiess et al.: Decomposition of CF[4 by microwave heating: a potential way to decrease greenhouse gas emissions Section 7: Application of Supercritical CO[2 24: Roger Glaser et al.: Application of high-pressure phase equilibria to the selective oxidation of alcohols over supported platinum catalysts in "supercritical" carbon dioxide Section 8: Methane Combustion 25: W.-B. Li, Y. Lin, and Y. Zhang: Catalytic oxidation of methane over Co/Mn mixed oxides 26: M. A. Fraga, M. C. Greca, and L. G. Appel: Supported Pd catalyst for high-temperature methane combustion: Examining the combustion synthesis preparation method