Citations Background


Citations On This Website

Jarvie, D.M., 1991, Factors affecting Rock-Eval derived kinetic parameters, Chemical Geology, v. 93, pp. 79-99.

Larson, K.W., D.W. Waples, Han Fu, and K. Kodama, 1993, Predicting tectonic fractures and fluid flow through fractures in basin modelling, in A.G. Doré et al., eds., Basin Modelling: Advances and Applications, Amsterdam: Elsevier, pp. 373-383.

Newman, J., 1997, New approaches to detection and correction of suppressed vitrinite reflectance, APPEA Journal, pp. 524-535.

Newman, J., L.C. Price, and J.H. Johnston, 1997, Hydrocarbon source potential and maturation in Eocene New Zealand vitrinite-rich coals, Journal of Petroleum Geology, v. 20, pp. 137-163.

Newman, J., K.M. Eckersley, D.A. Francis, and N.A. Moore, 2000, Application of vitrinite-inertinite reflectance and fluorescence to maturity assessment in the East Coast and Canterbury Basins of New Zealand. In 2000 New Zealand Petroleum Conference Proceedings, Publicity Unit, Crown Minerals, Ministry of Commerce, pp. 314-333.

Peters, K.E., C. C. Walters, and J. M. Moldowan, 2005, The Biomarker Guide, Volume 2: Biomarkers and Isotopes in the Petroleum Exploration and Earth History, 2nd edition, Cambridge: Cambridge University Press, 700 pp.

Peters, K.E., A.K. Burnham, and C.C. Walters, 2015, Petroleum generation kinetics: Single versus multiple heating-ramp open-system pyrolysis, AAPG Bulletin, v. 99, no.4, pp. 591-616.

Stainforth, J.G., 2009, Practical kinetic modeling of petroleum generation and expulsion, Marine and Petroleum Geology, v. 26, pp. 552-572.

Sweeney, J.J. and A.K. Burnham, 1990, Evaluation of a simple model of vitrinite reflectance based on chemical kinetics, AAPG Bulletin, v. 74, pp. 1559-1570.

Tegelaar, E.W. and R.A. Noble, 1994, Kinetics of hydrocarbon generation as a function of the molecular structure of kerogen as revealed by pyrolysis-gas chromatography, Organic Geochemistry, v. 22, pp. 543-574.

Voldman, G.G., G.L. Albanesi, and M. Do Campo, 2008, Conodont palaeothermometry of contact metamorphism in Middle Ordovician rocks from the Precordillera of western Argentina, Geological Magazine, v. 145, pp. 449–462.

Waples, D.W., 2000, The kinetics of in-reservoir oil destruction and gas formation: constraints from experimental and empirical data, and from thermodynamics, Organic Geochemistry, v. 31, pp. 553-575.

Waples, D.W., 2016, Petroleum generation kinetics: Single versus multiple heating-ramp open-system pyrolysis: Discussion, AAPG Bulletin, v. 100, no. 4, pp. 683-689.

Waples, D., 2017, Defining the oil generation window using kerogen kinetics and Transformation Ratio, Click here, uploaded 24 August 2017.

Waples, D., 2018a, Defining the oil generation window using kerogen kinetics and Transformation Ratio, Click here, uploaded 20 March 2018.

Waples, D., 2018b, Building Better 1-D Maturity Models: A Detailed Example, Click here, uploaded 24 August 2018.

Waples, D., 2019, Source-rock kinetics: Two easy methods of converting A factors, Click here, uploaded 22 February 2019.

Waples, D.W. and J.A. Curiale, 1999, Oil-oil and oil-source rock correlation, in N. Foster and E.A. Beaumont, eds., Treatise of the Handbook of Petroleum Geology, Tulsa: AAPG, pp. 8-1 to 8-71.

Waples, D.W. and T. Machihara, 1991, Biomarkers for Geologists: a practical guide to the application of steranes and triterpanes in petroleum exploration, Tulsa: AAPG, 91 pp.

Waples, D.W. and Mahadir Ramly, 2001, A simple way to model non-synchronous generation of oil and gas from kerogen, Natural Resources Research, v.10, pp.59-72.

Waples, D.W. and R.W. Marzi, 1998, The universality of the relationship between vitrinite reflectance and transformation ratio, Organic Geochemistry v. 28, pp. 383-388.

Waples, D. and M. Tobey, 2015, Like space and time, transformation ratio is curved: AAPG Annual Convention and Exhibition, Denver, Colorado, May 31–June 3, 2015, accessed September 2, 2015.

Waples, D.W., A. Vera, and J. Pacheco, 2002, A new method for kinetic analysis of source rocks: development and application as a thermal and organic facies indicator in the Tithonian of the Gulf of Campeche, Mexico, Abstracts, 8th Latin American Congress on Organic Geochemistry, Cartagena, pp. 296-298.

Waples, D.W., S. Safwat, R. Nagdy, R. Coskey, and J.E. Leonard, 2010, A new method for obtaining personalized kinetics from archived Rock-Eval data, applied to the Bakken Formation, Williston Basin, AAPG International Conference and Exhibition Abstracts Volume, 7 pp.

Wilkins, R.W.T., J.R. Wilmshurst, N.J. Russell, G. Hladky, M.V. Ellacott, and C. Buckingham, 1992, Fluorescence alteration and the suppression of vitrinite reflectance, Organic Geochemistry, v. 18, pp. 629-640.

Wilkins, R.W.T., J.R. Wilmshurst, G. Hladky, M.V. Ellacott, and C.P. Buckingham, 1995, Should fluorescence alteration replace vitrinite reflectance as a major tool for thermal maturity determination in oil exploration? Organic Geochemistry, v. 22, pp. 191-209.

Wilkins, R.W.T., N. Sherwood, M. Faiz, S.C. Teerman, and C.P. Buckingham, 1997, The application of fluorescence alteration of multiple macerals (FAMM) for petroleum exploration in SE Asia and Australia. In Proceedings of an International Conference on Petroleum Systems of SE Asia and Australia, Jakarta, May 21-23, 1997, pp. 923-938.

Wilkins, R.W.T., C.P. Buckingham, N. Sherwood, N.J. Russell, M. Faiz, and J. Kurusingal, 1998, The current status of the FAMM thermal maturity technique for petroleum exploration in Australia, APPEA Journal, v. 38, pp. 421-437.