TY - JOUR
T1 - 以電弧爐氧化碴作為燒製環保水泥原料之可行性研究
AU - Wang, Wei Chien
AU - Chang, Kao Hao
AU - Xue, Jia Chen
AU - Lee, Ming Gin
AU - Lin, Cheng Hsun
N1 - Publisher Copyright:
© 2022, Chinese Institute of Civil and Hydraulic Engineering. All right reserved.
PY - 2022/3
Y1 - 2022/3
N2 - Nowadays, the consumption of cement still increases significantly as surging demand arises from construction activities in the world with the depletion of many non-renewable resources and the emission of global carbon dioxide. Electric Arc Furnace Oxidizing Slag (EAFOS) is a by-product of Electric arc furnace steelmaking. In industrial consumption, the reuse of EAFOS is far less than its production. Therefore, this research is intended to replace the iron source of raw materials with EAFOS by 20%, 60%, and 100% of weight respectively to manufacture an environment-friendly cement. Besides, by examining the physical properties, composition analysis, and hardened properties test of the cement clinker after calcination, this research explores the feasibility of using EAFOS to develop an eco-cement. This research not only aims to reduce the resource loss caused by cement manufacturing but also aims to increase the reuse of EAFOS. Experiments results show that the addition of EAFOS can reduce the fineness of clinker by 1.1% ~ 4.0%, but has little influence on the specific gravity and alkali content of cement clinker. Besides, the cement coefficient and f-CaO content of clinker can be acceptable to the standard range except for the 100% iron replacement sample. Adding EAFOS can increase the content of C3S in the clinker. The condensation time can be shortened by the increasing of fineness due to high proportion EAFOS replacement. In addition, EAFOS can increase the strength of mortar by 22% to 27% at 28 days with little effect on drying shrinkage. From the test results, it can be concluded that EAFOS is as feasible as a cement raw material and has less of an impact on the performance of ecocement when used as a 60% iron substitute.
AB - Nowadays, the consumption of cement still increases significantly as surging demand arises from construction activities in the world with the depletion of many non-renewable resources and the emission of global carbon dioxide. Electric Arc Furnace Oxidizing Slag (EAFOS) is a by-product of Electric arc furnace steelmaking. In industrial consumption, the reuse of EAFOS is far less than its production. Therefore, this research is intended to replace the iron source of raw materials with EAFOS by 20%, 60%, and 100% of weight respectively to manufacture an environment-friendly cement. Besides, by examining the physical properties, composition analysis, and hardened properties test of the cement clinker after calcination, this research explores the feasibility of using EAFOS to develop an eco-cement. This research not only aims to reduce the resource loss caused by cement manufacturing but also aims to increase the reuse of EAFOS. Experiments results show that the addition of EAFOS can reduce the fineness of clinker by 1.1% ~ 4.0%, but has little influence on the specific gravity and alkali content of cement clinker. Besides, the cement coefficient and f-CaO content of clinker can be acceptable to the standard range except for the 100% iron replacement sample. Adding EAFOS can increase the content of C3S in the clinker. The condensation time can be shortened by the increasing of fineness due to high proportion EAFOS replacement. In addition, EAFOS can increase the strength of mortar by 22% to 27% at 28 days with little effect on drying shrinkage. From the test results, it can be concluded that EAFOS is as feasible as a cement raw material and has less of an impact on the performance of ecocement when used as a 60% iron substitute.
KW - Cement process
KW - Cement raw meal
KW - Eco-cement
KW - Electric arc furnace oxidizing slag
UR - http://www.scopus.com/inward/record.url?scp=85134056451&partnerID=8YFLogxK
U2 - 10.6652/JoCICHE.202203_34(1).0003
DO - 10.6652/JoCICHE.202203_34(1).0003
M3 - 期刊論文
AN - SCOPUS:85134056451
SN - 1015-5856
VL - 34
SP - 21
EP - 29
JO - Journal of the Chinese Institute of Civil and Hydraulic Engineering
JF - Journal of the Chinese Institute of Civil and Hydraulic Engineering
IS - 1
ER -