Results 161 to 170 of about 195,114 (193)
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Journal of Applied Chemistry, 1959
AbstractThe evidence for the presence of benzene in the low‐temperature pyrolysis of acetylene is reviewed in the light of recent communications.1,2.
D. M. Newitt, P. Rutledge, G. J. Minkoff
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AbstractThe evidence for the presence of benzene in the low‐temperature pyrolysis of acetylene is reviewed in the light of recent communications.1,2.
D. M. Newitt, P. Rutledge, G. J. Minkoff
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Co-pyrolysis Polystyrene/Fir: Pyrolysis Characteristics and Pyrolysis Kinetic Studies
2011 Third International Conference on Measuring Technology and Mechatronics Automation, 2011Thermal gravimetric analysis (TG) and differential thermal analysis (DTA) experiments were used to investigate the thermal decomposition characteristics and kinetics of polystyrene and polystyrene/fir, which are of potential interests for the development of renewable energy.
Baozhong Zhu, Yunlan Sun
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Journal of Applied Chemistry, 1960
AbstractThe pyrolysis of diborane has been studied in single‐ and multi‐pass flow systems to determine the optimum conditions for its conversion to pentaborane.In a single‐pass flow system the products consisted of tetraborane, dihydropentaborane (B5H11), pentaborane (B5H9), decaborane and undesirable non‐volatile solid hydrides.
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AbstractThe pyrolysis of diborane has been studied in single‐ and multi‐pass flow systems to determine the optimum conditions for its conversion to pentaborane.In a single‐pass flow system the products consisted of tetraborane, dihydropentaborane (B5H11), pentaborane (B5H9), decaborane and undesirable non‐volatile solid hydrides.
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Waste Management, 2009
This study deals with pyrolysis of tetra pak which is widely used as an aseptic beverage packaging material. Pyrolysis experiments were carried out under inert atmosphere in a batch reactor at different temperatures and by different pyrolysis modes (one- and two-step). The yields of char, liquid and gas were quantified.
Korkmaz, Ahmet +3 more
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This study deals with pyrolysis of tetra pak which is widely used as an aseptic beverage packaging material. Pyrolysis experiments were carried out under inert atmosphere in a batch reactor at different temperatures and by different pyrolysis modes (one- and two-step). The yields of char, liquid and gas were quantified.
Korkmaz, Ahmet +3 more
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A Review of Biomass Pyrolysis and Pyrolysis Technologies
1991Biomass, as the only renewable source of fixed carbon, has attracted considerable attention as a renewable energy resource after the oil crises of the last 15 years. Of the variety of technologies available for converting biomass into more useful and valuable energy products, thermochemical processing and particularly pyrolysis have been investigated ...
S. A. Bridge, Anthony V. Bridgwater
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The pyrolysis of chlorocarbons
Journal of Applied Chemistry and Biotechnology, 1974AbstractThe formation of C6Cl6(bz), CCl4 and C2Cl6 by the sealed‐tube pyrolysis of chlorocarbons, has been confirmed. The chlorinolysis of C6Cl6(bz), C4Cl6 (1,3 diene) and C2Cl4 yields CCl4.
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Investigation of pyrolysis products of polyacrylamide by pyrolysis—gas chromatography
Journal of Analytical and Applied Pyrolysis, 1991Abstract A study of the thermal degradation of polyacrylamide is presented. The method of flash pyrolysis—gas chromatography has been applied, and the experiments were carried out by using two different packed columns. Five major pyrolysis products were obtained during pyrolysis at 500 °C, i.e.
Saglam, M, Tutas, M, Yuksel, M
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Contact Pyrolysis in a “Pyrolysis Mill”
1988Conventional pyrolysis produces charcoal, pyrolysis oil and gas in approximately equal proportions. However fast pyrolysis has the potential for producing over 60% of an organic pyrolysis oil from biomass. The oil can be used as a low grade boiler fuel or the vapors can be converted to gasoline-like fuels.
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Pyrolysis of petroleum residues
Carbon, 2000Abstract Pyrolysis of two petroleum residues, R1 and R2 of different aromaticities, were studied at 0.1 and 1.0 MPa, 420–480°C, for soak times up to 12 h. Pyrolysis was followed by extracting resultant semicokes, sequentially, with heptane, toluene and N-methyl-pyrrolidinone to obtain four fractions HS, TS, NMPS and NMPI.
P Torregrosa +5 more
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2013
Pyrolysis is a thermochemical decomposition of biomass into a range of useful products, either in the total absence of oxidizing agents or with a limited supply that does not permit gasification to an appreciable extent. It also forms several initial reaction steps of gasification.
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Pyrolysis is a thermochemical decomposition of biomass into a range of useful products, either in the total absence of oxidizing agents or with a limited supply that does not permit gasification to an appreciable extent. It also forms several initial reaction steps of gasification.
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