Your search keyword '"Foreman, Mark R. St. J."' showing total 8 results

1. Determination of Hydrofluoric Acid Formation During Fire Accidents of Lithium-Ion Batteries with a Direct Cooling System Based on the Refrigeration Liquids

Author

Lombardo, G., Foreman, Mark R. St. J., Ebin, B., Yeung, L. W. Y., Steenari, B. M., Petranikova, M., Lombardo, G., Foreman, Mark R. St. J., Ebin, B., Yeung, L. W. Y., Steenari, B. M., and Petranikova, M.

Abstract

To avoid overheating of the batteries, which could lead to a fire, Lithium-ion batteries are provided with a thermal management system using refrigeration liquids. Since some of the commercial dielectric liquids used as refrigeration liquids contain halogens, their presence will contribute to a formation of hazardous emissions such as hydrofluoric acid during a potential fire. In this study, a simulation of a high temperature accident has been performed for lithium-ion batteries cooled with the direct immersion cooling systems using single-phase dielectric liquids to define their contribution to HF formation. Four commercial refrigeration liquids based on perfluoropolyethers, hydrofluoroether and polyalphaolefin were investigated in this work. By simulation of a fire, it was observed that the refrigeration liquids delayed the smoke formation by a factor of 2 to 2.5 in comparison to the case when the battery was burned without the cooling liquid. By analysis of the fluoride concentration in the washing system, it was determined that without the refrigeration liquid approximately 46.8 mmol/l of [F] was captured after the fire. When refrigeration liquids based on two perfluoropolyethers and hydrofluoroether were applied, the fluoride concentration in the washing system was 259 mmol/l, 173 mmol/l and 145 mmol/l, respectively. This work also proposed the reaction mechanisms of the refrigeration liquid ' s decomposition during a fire. It was concluded that the refrigeration liquid based on polyalphaolefin does not contribute to the additional formation of hydrofluoric acid due to the chemical stability and low content of fluoride and can be considered as a more sustainable alternative for a direct cooling system for Lithium-ion batteries.

Published

2023

2. Reactor accident chemistry an update

Author

Foreman, Mark R. St J., primary

Published

2018

3. Crystal structure of a layered coordination polymer based on a 44net containing Cd2+ions and 1,5-bis(pyridin-4-yl)pentane linkers

Author

Harrison, William T. A., primary, Plater, M. John, additional, deSilva, Ben M. deSilva, additional, and Foreman, Mark R. St J., additional

Published

2014

4. Polymeric diaqua(μ2-2,2′-bipyrimidinyl-κ4N1,N1′:N3,N3′)-di-μ3-hydroxy-bis(μ5-benzene-1,3,5-tricarboxylato-κ5O1:O2:O3:O3:O5)tetracobalt(II) dihydrate

Author

Plater, M. John, primary, Foreman, Mark R. St J., additional, and Howie, R. Alan, additional

Published

2002

5. A new polymorph, formC, of [1,2-bis(diphenylphosphino)ethane]dichloronickel(II)

Author

Davison, Jo C., primary, Foreman, Mark R. St J., additional, Howie, R. Alan, additional, Plater, M. John, additional, and Skakle, Janet M. S., additional

Published

2001

6. A new polymorph, form C, of [1,2-­bis­(di­phenyl­phosphino)­ethane]­dichloronickel(II).

Author

Davison, Jo C., Foreman, Mark R. St J., Howie, R. Alan, Plater, M. John, and Skakle, Janet M. S.

Abstract

The title compound, [NiCl2(C26H24P2)], has arisen as a result of the unexpected reduction (hydrogenation) of the trans-1,2-bis­(di­phenyl­phosphino)­ethene ligand. The hydro­thermal reaction conditions have produced a third polymorphic form of the compound which has twofold symmetry, crystallizes in an enantiomer-selective manner and contains an unexpectedly short C-C (ethane) bond. Contacts of the form C-H⃛Cl are present, one involving alkyl and the other aryl hydrogen, with C⃛Cl distances of 3.556 (4) and 3.664 (6) Å, respectively. [ABSTRACT FROM AUTHOR]

Published

2001

7. Crystal structure of a layered coordination polymer based on a 4(4) net containing Cd(2+) ions and 1,5-bis-(pyridin-4-yl)pentane linkers.

Author

Harrison WT, Plater MJ, deSilva BM, and Foreman MR

Abstract

The title compound, poly[[di-aqua-bis-[1,5-bis-(pyridin-4-yl)pentane-κ(2) N:N']cadmium] bis-(perchlorate) 1,5-bis-(pyridin-4-yl)pentane ethanol mono-solvate], [Cd(C15H18N2)2(H2O)2](ClO4)2·C15H18N2·C2H6O, is a layered coordination polymer built up from highly squashed 4(4) nets in which the octa-hedral trans-CdO2N4 nodes (Cd site symmetry -1) are linked by the bifunctional ligands, forming infinite (110) sheets. The cationic sheets are charge-balanced by inter-layer perchlorate ions. A free 1,5-bis-(pyridin-4-yl)pentane mol-ecule and an ethanol mol-ecule of crystallization are also found in the inter-sheet region. A number of O-H⋯O, O-H⋯N and C-H⋯O hydrogen bonds help to consolidate the layered structure.

Published

2014

8. Polymeric diaqua(mu(2)-2,2'-bipyrimidinyl-kappa4N1,N1':N3,N3')-di-mu(3)-hydroxy-bis(mu(5)-benzene-1,3,5-tricarboxylato-kappa5O1:O2:O3:O3:O5)tetracobalt(II) dihydrate.

Author

Plater MJ, Foreman MR, and Howie RA

Abstract

The structure of the title compound, [Co(4)(C(9)H(3)O(6))(2)(OH)(2)(C(8)H(6)N(4))(H(2)O)(2)].2H(2)O, contains three separate species, namely the mu(5)-bridging C(9)H(3)O(6)(3-) anion, the doubly chelating and therefore mu(2)-bridging C(8)H(6)N(4) ligand (bipyrimidine, BPM), and the dihydrated diaquadihydroxy tetranuclear cationic cluster, [Co(4)(OH(-))(2)(H(2)O)(2)](6+).2H(2)O, which lies on a crystallographic centre of symmetry, as does the BPM ligand with, in this case, the centre of symmetry coincident with the midpoint of the C-C bond joining the six-membered rings. Within the cation cluster, the Co atoms of one pair are five-coordinate and those of the other six-coordinate.

Published

2002