Your search keyword '"Nicholas D. C. Allen"' showing total 7 results

1. Determining modified reaction parameters for the real-time measurement of BTEX in biogas and nitrogen using Selected Ion Flow Tube Mass Spectrometry (SIFT-MS)

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Author

Nicholas D. C. Allen, Jianrong Li, Mark Perkins, and Thomas Bacquart

Subjects

chemistry.chemical_classification, Waste management, business.industry, General Chemical Engineering, 010401 analytical chemistry, chemistry.chemical_element, General Chemistry, BTEX, 01 natural sciences, Nitrogen, 0104 chemical sciences, 010309 optics, Reaction rate, Hydrocarbon, chemistry, Biogas, Natural gas, Impurity, 0103 physical sciences, Environmental science, Selected-ion flow-tube mass spectrometry, Safety, Risk, Reliability and Quality, business, Instrumentation

Abstract

The increasing demand for high-quality biogas and the reduction of reliance on natural gas have driven the need for a well-defined framework to ensure conformity and quality of biogas by the introduction of traceable reference materials and methods across the community. Furthermore, there is a great need to quantify critical trace impurities in biogas. Here, we perform real-time measurements on reference gas standards containing trace hydrocarbons in biogas that are traceable to the international system of units using Selected Ion Flow Tube Mass Spectrometry (SIFT-MS). There are limited data on reaction rate constants in biogas matrices for SIFT-MS, and here we use the traceable gas standards to determine and compare the reaction rate constants of trace hydrocarbons in biogas and nitrogen. Here, we modify SIFT-MS constants for biogas avoiding the current 30 % bias and prevent the overestimation in the concentration of hydrocarbon amount fractions. more...

Published

2019

2. The importance of cylinder passivation for preparation and long-term stability of multicomponent monoterpene primary reference materials

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Author

Bernhard Niederhauser, Nicholas D. C. Allen, Céline Pascale, Paul J. Brewer, and David R. Worton

Subjects

Atmospheric Science, Limonene, Materials science, 010504 meteorology & atmospheric sciences, lcsh:TA715-787, Monoterpene, lcsh:Earthwork. Foundations, Fraction (chemistry), 010501 environmental sciences, Permeation, 01 natural sciences, Dilution, lcsh:Environmental engineering, chemistry.chemical_compound, Chemical engineering, chemistry, Atmospheric chemistry, lcsh:TA170-171, Chemical composition, Gas generator, 0105 earth and related environmental sciences

Abstract

Monoterpenes play an important role in atmospheric chemistry due to their large anthropogenic and biogenic emission sources and high chemical reactivity. As a consequence, measurements are required to assess how changes in emissions of monoterpenes impact air quality. Accurate and comparable measurements of monoterpenes in indoor and outdoor environments require gaseous primary reference materials (PRMs) that are traceable to the international system of units (SI). PRMs of monoterpenes are challenging to produce due to the high chemical reactivity and low vapour pressures of monoterpenes and also their propensity to convert into other compounds, including other terpenes. In this paper, the long-term stability of gravimetrically prepared static monoterpene PRMs produced in differently passivated cylinders, including sampling canisters, was assessed. We demonstrate that static PRMs of multiple monoterpenes can be prepared and used as a suitable long-term standard. For the first time the effect of cylinder pressure and decanting from one cylinder to another on the chemical composition and amount fraction of monoterpenes was also studied. Gravimetrically prepared PRMs of limonene in high pressure cylinders were compared to a novel portable dynamic reference gas generator based on dilution of pure limonene vapour emitted from a permeation tube. more...

Published

2018

3. Influence of Pressure on the Composition of Gaseous Reference Materials

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Author

David R. Worton, Richard J. C. Brown, Nicholas D. C. Allen, Kevin C. Blakley, Paul J. Brewer, Matthew Ellison, Daniel Benucci, Kate V. Resner, and Ruth E. Hill-Pearce

Subjects

010504 meteorology & atmospheric sciences, Analytical chemistry, chemistry.chemical_element, Fraction (chemistry), 010402 general chemistry, 01 natural sciences, Nitrogen, Methane, 0104 chemical sciences, Analytical Chemistry, chemistry.chemical_compound, Adsorption, chemistry, Carbon dioxide, Gravimetric analysis, Hydrogen chloride, Water vapor, 0105 earth and related environmental sciences

Abstract

We have shown that the amount fraction of carbon dioxide in a nitrogen or synthetic air matrix stored in cylinders increases as the pressure of the gas mixture reduces, while the amount fraction of methane remains unchanged. Our measurements show the initial amount fraction of carbon dioxide to be lower than the gravimetric value after preparation, which we attribute to the adsorption of a proportion of the molecules to active sites on the internal surface of the cylinder and the valve. As the mixture is consumed, the pressure in the cylinder reduces and the amount fraction of the component is observed to increase. The effect is less pronounced in the presence of water vapor. More dramatic effects have been observed for hydrogen chloride. These findings have significant implications for the preparation of high accuracy gaseous reference materials with unprecedented uncertainties which underpin a broad range of requirements, in particular atmospheric monitoring of high impact greenhouse gases. more...

Published

2018

4. International comparison of key volatile organic components in indoor air

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Author

Nicholas D. C. Allen, Paul J. Brewer, P. T. Woods, Richard J. C. Brown, and Robert P. Lipscombe

Subjects

010504 meteorology & atmospheric sciences, Waste management, Indoor air, Applied Mathematics, Environmental engineering, 010501 environmental sciences, Condensed Matter Physics, 01 natural sciences, Physical laboratory, Environmental science, Significant risk, Organic component, Electrical and Electronic Engineering, Instrumentation, 0105 earth and related environmental sciences

Abstract

An international comparison was coordinated by the National Physical Laboratory to assess the analytical capabilities of laboratories for measuring ten selected volatile organic compounds. These were chosen to represent a wide range of non-methane hydrocarbons, terpenes and oxygenated hydrocarbons, which pose a significant risk to public health from their presence in indoor environments from emissions by building and consumer materials. The components were loaded onto sorbent tubes and distributed to twenty-four participating laboratories for analysis. It was found that laboratories predominantly reported analytical results that were greater than the reference value, however the majority of results were closer to the reference value when compared to the previous comparison carried out in 2010. more...

Published

2016

5. The importance of cylinder passivation chemistry for preparation and long-term stability of multicomponent monoterpene primary reference materials

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Author

Nicholas D. C. Allen, David R. Worton, Paul J. Brewer, Céline Pascale, and Bernhard Niederhauser

Abstract

Monoterpenes play an important role in atmospheric chemistry due to their large anthropogenic and biogenic emission sources and high chemical reactivity. As a consequence, measurements are required to assess how changes in emissions of monoterpenes impact air quality. Accurate and comparable measurements of monoterpenes in indoor and outdoor environments require gaseous primary reference materials (PRMs) that are traceable to the international system of units (SI). PRMs of monoterpenes are challenging to produce due to the high chemical reactivity and low vapour pressures of monoterpenes and also their propensity to convert into other compounds, including other terpenes. In this paper, the long-term stability of gravimetrically prepared static monoterpene PRMs produced in differently passivated cylinders, including sampling canisters, was assessed. We demonstrate that static PRMs of multiple monoterpenes can be prepared and used as a suitable long-term standard. For the first time the effect of cylinder pressure and decanting from one cylinder to another on the chemical composition and amount fraction of monoterpenes was also studied. Gravimetrically prepared PRMs of limonene in high pressure cylinders were compared to a novel portable dynamic reference gas generator based on dilution of pure limonene vapour emitted from a permeation tube. more...

Published

2018

6. Supplementary material to 'The importance of cylinder passivation chemistry for preparation and long-term stability of multicomponent monoterpene primary reference materials'

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Author

Nicholas D. C. Allen, David R. Worton, Paul J. Brewer, Céline Pascale, and Bernhard Niederhauser

Published

2018

7. CCQM-K121 - Monoterpenes in nitrogen at 2.5 nmol mol-1 final report

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Author

Christina Liaskos, David R. Worton, George C. Rhoderick, Antonio Possolo, Sangil Lee, Nicholas D. C. Allen, Richard J. C. Brown, Yong Doo Kim, Cassie Goodman, Marivon Corbel, Joseph T. Hodges, Paul J. Brewer, and Dalho Kim more...

Subjects

010401 analytical chemistry, General Engineering, Stratospheric chemistry, chemistry.chemical_element, Climate change, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Nitrogen, 0104 chemical sciences, Troposphere, chemistry, Environmental chemistry, Atmospheric chemistry, Environmental science, 0210 nano-technology

Abstract

Main text The growing awareness of climate change, and continuing concerns regarding tropospheric and stratospheric chemistry, will require future measurements and standards for compounds linked to these issues. To globally monitor and control the emissions of these species in the atmosphere, it is necessary to demonstrate measurement equivalence at the highest levels of accuracy for assigned values of standards. This report describes the results of a key comparison for several important monoterpene species, which are relevant to atmospheric chemistry and climate. The comparison samples include α-pinene, 3-carene, R-limonene and 1,8-cineole in a nitrogen matrix gas, at a 2.5 nmol mol-1 amount of substance fraction. The objective of this key comparison is to evaluate the participants' capabilities to measure trace level monoterpenes using their own calibration techniques. KEY WORDS FOR SEARCH VOCs, terpenes, metrology, gas standards Main text To reach the main text of this paper, click on Final Report. Note that this text is that which appears in Appendix B of the BIPM key comparison database kcdb.bipm.org/. The final report has been peer-reviewed and approved for publication by the CCQM, according to the provisions of the CIPM Mutual Recognition Arrangement (CIPM MRA). more...

Published

2018