Peter Hinde
Johnson Matthey
9 Papers
21 Citations
Peter Hinde is an academic researcher from Johnson Matthey. The author has contributed to research in topics: Catalysis & Nonthermal plasma. The author has an hindex of 4, co-authored 7 publications.
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Papers
Probing the Role of a Non-Thermal Plasma (NTP) in the Hybrid NTP Catalytic Oxidation of Methane.
Emma K. Gibson,Emma K. Gibson,Cristina E. Stere,Bronagh Curran-McAteer,Wilm Jones,Wilm Jones,Giannantonio Cibin,Diego Gianolio,Alexandre Goguet,Peter P. Wells,Peter P. Wells,C. Richard A. Catlow,C. Richard A. Catlow,C. Richard A. Catlow,Paul Collier,Peter Hinde,Christopher Hardacre +16 more
TL;DR: NTP‐assisted methane (CH4) oxidation over Pd/Al2O3 was investigated by direct monitoring of the X‐ray absorption fine structure of the catalyst, coupled with end‐of‐pipe mass spectrometry, which revealed that the catalyst did not undergo any significant structural changes under NTP conditions.
Patent
Exhaust system for lean-burn internal combustion engine comprising PD-AU-Alloy catalyst
Janet Mary Fisher,John Benjamin Goodwin,Peter Hinde,Agnes Raj,Raj Rao Rajaram,Emma R. Schofield,Sylvie Cécile Laroze +6 more
- 08 May 2009
TL;DR: In this article, an apparatus (10) comprising a lean burn internal combustion engine (12) and an exhaust system (14) comprising one or more catalytic aftertreatment component comprising a catalyst composition comprising an alloy consisting of palladium and gold on a metal oxide support.
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Plasma Catalysis: A Review of the Interdisciplinary Challenges Faced : Realising the potential of plasma catalysis on a commercial scale
TL;DR: In this article, the authors introduce the topic of plasma catalysis through selected work in scientific literature and commercial applications, as well as identifying some of the key challenges faced when attempting to utilise non-thermal atmospheric plasma Catalysis across multidisciplinary boundaries including those of physics, chemistry and electrical engineering.
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COMETTM ‐ A New Ventilation Air Methane (VAM) Abatement Technology
TL;DR: In this paper, a new technology known as COMETTM has been developed at Johnson Matthey in collaboration with Anglo Coal for abating this methane emission source, and the development of the catalytic system and its engineering aspects has been described.
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Comparison between the thermal and plasma (NTP) assisted palladium catalyzed oxidation of CH4 using AC or nanopulse power supply
Fabio De Rosa,Christopher Hardacre,William Graham,Geoffrey McCullough,Paul James Millington,Peter Hinde,Alexandre Goguet +6 more
TL;DR: In this paper, the combustion of methane using a plasma, a plasma-catalyst or a thermo-catalytic system was explored using a palladium supported on alumina catalyst.
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