| 1 |
Determining the laminar burning velocity of nitrogen diluted dimethoxymethane (OME1) using the heat-flux burner method: Numerical and experimental investigations
Eckart S, Fritsche C, Krasselt C, Krause H
International Journal of Energy Research, 45(2), 2824, 2021 |
| 2 |
Steam reforming of dimethoxymethane to hydrogen-rich gas over bifunctional CuO-ZnO/eta-Al2O3 catalyst-coated FeCrAl wire mesh
Badmaev SD, Sobyanin VA
Catalysis Today, 348, 9, 2020 |
| 3 |
High-pressure shock-tube study of the ignition and product formation of fuel-rich dimethoxymethane (DMM)/air and CH4/DMM/air mixtures
Herzler J, Fikri M, Schulz C
Combustion and Flame, 216, 293, 2020 |
| 4 |
Detailed kinetic modeling of dimethoxymethane. Part II: Experimental and theoretical study of the kinetics and reaction mechanism
Jacobs S, Dontgen M, Alquaity ABS, Kopp WA, Kroger LC, Burke U, Pitsch H, Leonhard K, Curran HJ, Heufer KA
Combustion and Flame, 205, 522, 2019 |
| 5 |
Low to intermediate temperature oxidation studies of dimethoxymethane/n-heptane blends in a jet-stirred reactor
Gao ZH, Hu EJ, Xu ZH, Yin GY, Huang ZH
Combustion and Flame, 207, 20, 2019 |
| 6 |
Capturing methanol and dimethoxymethane gases with ionic liquids
Zhao HK, Gao H, Yu GQ, Li QS, Lei ZG
Fuel, 241, 704, 2019 |
| 7 |
Effect of mass-transfer control on HY zeolites for dimethoxymethane carbonylation to methyl methoxyacetate
Zhang DX, Shi L, Wang Y, Chen F, Yao J, Li XY, Ni YM, Zhu WL, Liu ZM
Catalysis Today, 316, 114, 2018 |
| 8 |
Experimental and modeling study on ignition delay times of dimethoxy methane/n-heptane blends
Hu EJ, Gao ZH, Liu Y, Yin GY, Huang ZH
Fuel, 189, 350, 2017 |
| 9 |
Potential of oxymethylenether-diesel blends for ultra-low emission engines
Omari A, Heuser B, Pischinger S
Fuel, 209, 232, 2017 |
| 10 |
Dimethoxymethane Oxidation in a Flow Reactor
Marrodan L, Monge F, Millera A, Bilbao R, Alzueta MU
Combustion Science and Technology, 188(4-5), 719, 2016 |
