| 1 |
Reliability and Performance of Vinyl Lactam-Based Kinetic Hydrate Inhibitor Polymers after Treatment under a Range of Conditions
Kelland MA, Zhang Q, Dirdal EG, Mady MF
Energy & Fuels, 35(2), 1273, 2021 |
| 2 |
Solvent Synergists for Improved Kinetic Hydrate Inhibitor Performance of Poly(N-vinylcaprolactam)
Kelland MA, Dirdal EG, Ree LHS
Energy & Fuels, 34(2), 1653, 2020 |
| 3 |
High Cloud Point Polyvinylaminals as Non-Amide-Based Kinetic Gas Hydrate Inhibitors
Kelland MA, Dirdal EG, Zhang Q
Energy & Fuels, 34(7), 8301, 2020 |
| 4 |
Synthesis and Investigation of Polymers of 2-Methacrylamido-caprolactam as Kinetic Hydrate Inhibitors
Dirdal EG, Kelland MA
Energy & Fuels, 34(6), 6981, 2020 |
| 5 |
Does the Cloud Point Temperature of a Polymer Correlate with Its Kinetic Hydrate Inhibitor Performance? (vol 33, pg 7127, 2019)
Dirdal EG, Kelland MA
Energy & Fuels, 33(10), 10390, 2019 |
| 6 |
Does the Cloud Point Temperature of a Polymer Correlate with Its Kinetic Hydrate Inhibitor Performance?
Dirdal EG, Kelland MA
Energy & Fuels, 33(8), 7127, 2019 |
| 7 |
Novel Benchtop Wheel Loop for Low Dosage Gas Hydrate Inhibitor Screening: Comparison to Rocking Cells for a Series of Antiagglomerants
Kelland MA, Grinrod A, Dirdal EG
Journal of Chemical and Engineering Data, 60(2), 252, 2015 |
| 8 |
Can cyclopentane hydrate formation be used to rank the performance of kinetic hydrate inhibitors?
Dirdal EG, Arulanantham C, Sefidroodi H, Kelland MA
Chemical Engineering Science, 82, 177, 2012 |
