University of Cambridge - Equipment Account

Lead Research Organisation: University of Cambridge
Department Name: Research Services Division

Abstract

This is the equipment account for the University of Cambridge

Planned Impact

N/A

Publications

10 25 50
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Zheng Y (2023) 3D Flame surface density measurements via orthogonal cross-planar mie scattering in a low-turbulence bunsen flame

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Zheng Y (2023) 3D Flame surface density measurements via orthogonal cross-planar mie scattering in a low-turbulence bunsen flame in Proceedings of the Combustion Institute

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Zheng Y (2023) 3D flame surface measurements in low-turbulence Bunsen flames via scanning and orthogonal cross-planar techniques in Combustion and Flame

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Pusch A (2015) A highly efficient CMOS nanoplasmonic crystal enhanced slow-wave thermal emitter improves infrared gas-sensing devices in Scientific Reports

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Ali S (2015) A Low-Power, Low-Cost Infra-Red Emitter in CMOS Technology in IEEE Sensors Journal

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De Luca A (2013) A thermopile based SOI CMOS MEMS wall shear stress sensor

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Palacios-Berraquero C (2016) Atomically thin quantum light-emitting diodes

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Palacios-Berraquero C (2016) Atomically thin quantum light-emitting diodes. in Nature communications

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Camuso G (2014) Avalanche ruggedness of 800V Lateral IGBTs in bulk Si

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De Luca A. (2016) CMOS Plasmonic Devices for Non-Dispersive-Infra-Red Gas Sensors

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Avramescu V (2016) CMOS-compatible SOI micro-hotplate-based oxygen sensor

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Santra S (2015) Dip pen nanolithography-deposited zinc oxide nanorods on a CMOS MEMS platform for ethanol sensing in RSC Advances

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De Luca A (2013) Enhanced infra-red emission from sub-millimeter microelectromechanical systems micro hotplates via inkjet deposited carbon nanoparticles and fullerenes in Journal of Applied Physics

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De Luca A (2015) Enhanced spectroscopic gas sensors using in-situ grown carbon nanotubes in Applied Physics Letters

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De Luca A (2015) Experimental, analytical and numerical investigation of non-linearity of SOI diode temperature sensors at extreme temperatures in Sensors and Actuators A: Physical

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Zheng Y (2024) Experimentally Closing the Balance of Progress of Reaction in Premixed Turbulent Combustion in the Thin Flame Regime in Flow, Turbulence and Combustion

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OonJew Lee (2017) Giant Enhancement of Polarization and Strong Improvement of Retention in Epitaxial Ba 0.6 Sr 0.4 TiO 3 -Based Nanocomposites

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Lee O (2017) Giant Enhancement of Polarization and Strong Improvement of Retention in Epitaxial Ba 0.6 Sr 0.4 TiO 3 -Based Nanocomposites in Advanced Materials Interfaces

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OonJew Lee (2017) Giant Enhancement of Polarization and Strong Improvement of Retention in Epitaxial Ba 0.6 Sr 0.4 TiO 3 -Based Nanocomposites

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Lee O (2017) Giant Enhancement of Polarization and Strong Improvement of Retention in Epitaxial Ba$_{0.6}$Sr$_{0.4}$TiO$_{3}$-Based Nanocomposites

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Rodrigues J (2023) High-frequency measurement of concentration in an isothermal methane-air gas mixture using spontaneous Raman spectroscopy. in Scientific reports

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Rodrigues J (2023) High-frequency measurement of concentration in an isothermal methane-air gas mixture using spontaneous Raman spectroscopy.

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De Luca A (2015) High-Sensitivity Single Thermopile SOI CMOS MEMS Thermal Wall Shear Stress Sensor in IEEE Sensors Journal

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Zheng Y (2022) Instantaneous flame front identification by Mie scattering vs. OH PLIF in low turbulence Bunsen flame

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Zheng Y (2022) Instantaneous flame front identification by Mie scattering vs. OH PLIF in low turbulence Bunsen flame

 
Description The equipment on this grant has enabled researchers to take part in other research projects such as EU projects, Innovate UK projects etc as well as to obtain further funding for equipment.
First Year Of Impact 2014
Sector Aerospace, Defence and Marine,Chemicals,Construction,Digital/Communication/Information Technologies (including Software),Electronics,Energy,Environment,Healthcare,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology,Transport
Impact Types Societal

Economic
 
Title Velocity and species imaging data for Cambridge Oxycoal Swirl Burner (CCB) 
Description This document describes the database of experiments performed using coal and methane combustion in the Cambridge Coal Burner (CCB). Both cases have the same outer geometry, but series CCB2 is outfitted with a central bluff body to enhance flame stabilization and coal burnout.Cases with reacting flows are denoted RF, and non-reacting flow, by NRF. The burner consists of a tube carrying the mixture of coal, methane, oxidizer and diluent (conditions listed below), surrounded by a swirling pilot of methane gas. Measurements were made with: PIV, LDA, Mie scatter and OH PLIF. See original publications for details of the methodology. -- Cite as: Balusamy, S., Schmidt, A. and Hochgreb, S. (2013), "Flow field measurements of pulverized coal combustion using optical diagnostic techniques", Experiments in Fluids, 54(5):1534, doi:10.1007/s00348-013-1534-2 Balusamy, S., Kamal, M. M., Lowe, S. M., Tian, B. , Gao, Y. and Hochgreb, S. (2015), "Laser diagnostics of pulverized coal combustion in O2/N2 and O2/CO2 conditions: velocity and scalar field measurements", Experiments in Fluids 56(5):0723-4864. doi:10.1007/s00348-015-1965-z 
Type Of Material Database/Collection of data 
Year Produced 2023 
Provided To Others? Yes  
URL https://www.repository.cam.ac.uk/handle/1810/350135