1 |
Progress of hydrogen gas generation by reaction between iron and steel powder and carbonate water in the temperature range near room temperature Eba H, Takahashi M, Sakurai K International Journal of Hydrogen Energy, 45(27), 13832, 2020 |
2 |
Comprehensive assessment of energy conservation and CO2 emissions mitigation in China's iron and steel industry based on dynamic material flows Zhang Q, Xu J, Wang YJ, Hasanbeigi A, Zhang W, Lu HY, Arens M Applied Energy, 209, 251, 2018 |
3 |
Waste steel scrap to nanostructured powder and superior compact through powder metallurgy: Powder generation, processing and characterization Verma P, Saha R, Chaira D Powder Technology, 326, 159, 2018 |
4 |
Process integration analysis and some economic-environmental implications for an innovative environmentally friendly recovery and pre-treatment of steel scrap Porzio GF, Colla V, Fornai B, Vannucci M, Larsson M, Stripple H Applied Energy, 161, 656, 2016 |
5 |
Increased Energy and Material Efficiency of Steelmaking in the Electric Arc Furnace Kleimt B, Dettmer B, Haverkamp V, Deinet T, Tassot P Chemie Ingenieur Technik, 84(10), 1714, 2012 |
6 |
Dezincification of Steel Scraps Schonfelder I, Gock E, Vogt V, Carlowitz O, Zeller T, Sauter A Chemie Ingenieur Technik, 84(10), 1749, 2012 |
7 |
Analysis of waste heat recovery to steel scrap preheating in an enclosure vessel Wang T, Kawakami M, Mori K, Shahidan SH Materials Science Forum, 449-4, 329, 2004 |