Institution
ExxonMobil
Company•Irving, Texas, United States•
About: ExxonMobil is a company organization based out in Irving, Texas, United States. It is known for research contribution in the topics: Catalysis & Polymerization. The organization has 16969 authors who have published 23758 publications receiving 535713 citations. The organization is also known as: Exxon Mobil Corporation & Exxon Mobil Corp..
Topics: Catalysis, Polymerization, Polymer, Hydrocarbon, Alkyl
Papers published on a yearly basis
Papers
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TL;DR: In this article, a realizability-based approach to compute the effective moduli of composites is presented. The method is based on the idea that the composite is constructed explicitly from an initial material through a series of incremental additions, and the construction process is uniquely specified by parametrizing the volume fractions of the included phases.
688 citations
TL;DR: In this paper, the authors discussed the need for a reducible, transition metal oxide support and on the basis of bonding mechanisms suggested by known compounds, showed that Iridium exhibits normal H2-chemisorption (typical of Ir Al 2 O 3 and Ir SiO 2 ) following reduction at 200 °C.
685 citations
TL;DR: In this paper, specific catalysts were determined in the synthesis of hydrocarbons from CO-H2 mixtures over all the Group VIII metals except Os, and the methanation reaction was fitted to a power rate law of the form r CH 4 = Ae −Em RT P H 2 X P CO Y over all groups VIII metals.
680 citations
TL;DR: In this article, an experimental study of heat transfer and flow regimes during condensation of refrigerants in horizontal tubes was conducted, where measurements were made in smooth, round tubes with diameters ranging from 3.14 mm to 7.04 mm.
Abstract: An experimental study of heat transfer and flow regimes during condensation of refrigerants in horizontal tubes was conducted. Measurements were made in smooth, round tubes with diameters ranging from 3.14 mm to 7.04 mm. The refrigerants tested were R-12, R-22, R-134a, and near-azeotropic blends of R-32/R-125 in 50 percent/50 percent and 60 percent/40 percent compositions. The study focused primarily on measurement and prediction of condensing heat transfer coefficients and the relationship between heat transfer coefficients and two-phase flow regimes. Flow regimes were observed visually at the inlet and outlet of the test condenser as the heat transfer data were collected. Stratified, wavy, wavy annular, annular, annular mist, and slug flows were observed. True mist flow without a stable wall film was not observed during condensation tests. The experimental results were compared with existing flow regime maps and some corrections are suggested. The heat transfer behavior was controlled by the prevailing flow regime. For the purpose of analyzing condensing heat transfer behavior, the various flow regimes were divided into two broad categories of gravity-dominated and shear-dominated flows. In the gravity dominated flow regime, the dominant heat transfer mode was laminar film condensation in the top of the tube. This regime was characterized by heat transfer coefficients that depended on the wall-to-refrigerant temperature difference but were nearly independent of mass flux. In the shear-dominated flow regime, forced-convective condensation was the dominant heat transfer mechanism. This regime was characterized by heat transfer coefficients that were independent of temperature difference but very dependent on mass flux and quality. Heat transfer correlations that were developed for each of these flow regimes successfully predicted data from the present study and from several other sources.
673 citations
TL;DR: In this article, a method to grow carbon microtubules with fullerene structure (buckytubes) has been identified, which consists of the catalytic decomposition of acetylene over iron particles at 700 °C.
Abstract: A method to grow carbon microtubules with fullerene structure (buckytubes) has been identified. The method consists of the catalytic decomposition of acetylene over iron particles at 700 °C. Carbon microtubules of up to 50 μm in length are synthesized by this method. Electron diffraction and high resolution electron microscopy studies demonstrate that the structure of these microtubules corresponds to the helical structure recently reported by S. Iijima, Nature 354, 56(1991), prepared using an arc‐discharge evaporation method.
672 citations
Authors
Showing all 16987 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| David A. Weitz | 178 | 1038 | 114182 |
| Avelino Corma | 134 | 1049 | 89095 |
| Peter Hall | 132 | 1640 | 85019 |
| James A. Dumesic | 118 | 615 | 58935 |
| Robert H. Crabtree | 113 | 678 | 48634 |
| Costas M. Soukoulis | 108 | 644 | 50208 |
| Nicholas J. Turro | 104 | 1131 | 53827 |
| Edwin L. Thomas | 104 | 606 | 40819 |
| Israel E. Wachs | 103 | 427 | 32029 |
| Andrew I. Cooper | 99 | 389 | 34700 |
| Michael J. Zaworotko | 97 | 519 | 44441 |
| Enrique Iglesia | 96 | 416 | 31934 |
| Yves J. Chabal | 94 | 519 | 33820 |
| George E. Gehrels | 92 | 454 | 30560 |
| Ping Sheng | 90 | 593 | 37141 |