| 國立成功大學 |
2024-12-15 |
Supervised and unsupervised machine learning for elemental changes evaluation of torrefied biochars
|
Zhang;Congyu;Felix;Charles, B.;Chen;Wei-Hsin;Zhang;Ying |
| 國立成功大學 |
2024-12 |
Fuel properties evaluation and inherent correlation analysis of oxidatively torrefied corn stalk
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Zhang;Congyu;Zhan;Yong;Chen;Wei-Hsin;Zhang;Ying |
| 國立成功大學 |
2024-11-15 |
Comparative advantages of gas-pressurized torrefaction for corn stalk conversion to achieve solid biofuel production
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Zhang;Congyu;Zhan;Yong;Chen;Wei-Hsin;Tran;Khanh-Quang;Zhang;Ying |
| 國立成功大學 |
2024-11 |
Relative fuel property variation of gas-pressurized and conventional torrefaction for biochar performance assessment
|
Zhang;Congyu;Zhan;Yong;Chen;Wei-Hsin;Lamba;Yadav, Bhawna;Zhang;Ying |
| 國立成功大學 |
2024-05 |
Comparison of torrefaction and hydrothermal carbonization of high-moisture microalgal feedstock
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Zhang;Congyu;Chen;Wei-Hsin;Saravanakumar;Ayyadurai;Lin;Andrew, Kun-Yi;Zhang;Ying |
| 國立成功大學 |
2024-04-15 |
Effects of water washing and KOH activation for upgrading microalgal torrefied biochar
|
Zhang;Congyu;Fang;Jin;Chen;Wei-Hsin;Kwon;Eilhann, Eilhann E.;Zhang;Ying |
| 國立成功大學 |
2024-01-01 |
Correlations between different fuel property indicators and carbonization degree of oxidatively torrefied microalgal biomass
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Zhang;Congyu;Zhan;Yong;Chen;Wei-Hsin;Ho;Shih-Hsin;Park;Young-Kwon;Culaba;Alvin, B.;Zhang;Ying |
| 國立成功大學 |
2023-12-15 |
Pelletization property analysis of raw and torrefied corn stalks for industrial application to achieve agricultural waste conversion
|
Zhang;Congyu;Chen;Wei-Hsin;Hof;Shih-Hsin;Park;Young-Kwon;Wang;Chengyu;Zhang;Ying |
| 國立成功大學 |
2023-11-15 |
Tetracycline-adsorbed biochar for solid biofuel usage to achieve waste utilization for environmental sustainability
|
Zhang;Congyu;Chen;Wei-Hsin;Ho;Shih-Hsin;Hoang;Tuan, Anh;Zhang;Ying |
| 國立成功大學 |
2023-11 |
Multistage utilization of soybean straw-derived P-doped biochar for aquatic pollutant removal and biofuel usage
|
Li;Ruizhen;Zhang;Congyu;Chen;Wei-Hsin;Kwon;Eilhann, Eilhann E.;Rajendran;Saravanan;Zhang;Ying |
| 國立成功大學 |
2023-10 |
Comparative advantages analysis of oxidative torrefaction for solid biofuel production and property upgrading
|
Zhang;Congyu;Chen;Wei-Hsin;Ho;Shih-Hsin;Zhang;Ying;Lim;Steven |
| 國立成功大學 |
2023-08-1 |
Influence of microorganisms on the variation of raw and oxidatively torrefied microalgal biomass properties
|
Zhang;Congyu;Chen;Wei-Hsin;Zhang;Ying;Ho;Shih-Hsin |
| 國立成功大學 |
2023-03-27 |
Superhydrophobic and superlipophilic biochar produced from microalga torrefaction and modification for upgrading fuel properties
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Zhang;Congyu;Wang;Meng;Chen;Wei-Hsin, Hsin H.;Zhang;Ying;Petrissans;Anelie;Petrissans;Mathieu;Ho;Shih-Hsin, Hsin H. |
| 國立成功大學 |
2022-10-1 |
A comparison of conventional and oxidative torrefaction of microalga Nannochloropsis Oceanica through energy efficiency analysis and life cycle assessment
|
Zhang;Congyu;Wang;Meng;Chen;Wei-Hsin;Petrissans;Anelie;Petrissans;Mathieu;Ho;Shih-Hsin |
| 國立成功大學 |
2022-09 |
Oxidative torrefaction of microalga Nannochloropsis Oceanica activated by potassium carbonate for solid biofuel production
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Zhang;Congyu;Li;Fanghua;Ho;Shih-Hsin;Chen;Wei-Hsin;Gunarathne;Sandamali, Duleeka;Show;Loke, Pau |
| 國立成功大學 |
2022-03-1 |
Elemental loss, enrichment, transformation and life cycle assessment of torrefied corncob
|
Zhang;Congyu;Chen;Wei-Hsin;Ho;Shih-Hsin |
| 國立成功大學 |
2022-02-1 |
Effect of torrefaction on the structure and reactivity of rice straw as well as life cycle assessment of torrefaction process
|
Zhang;Congyu;Yang;Wu;Chen;Wei-Hsin;Ho;Shih-Hsin;Petrissans;Anelie;Petrissans;Mathieu |
| 國立成功大學 |
2021-09-10 |
Oxidative torrefaction performance of microalga Nannochloropsis Oceanica towards an upgraded microalgal solid biofuel
|
Zhang;Congyu;Ho;Shih-Hsin;Chen;Wei-Hsin;Wang;Rupeng;Show;Pau-Loke;Ong;Chyuan, Hwai |
| 國立成功大學 |
2021-09-1 |
Comparative indexes, fuel characterization and thermogravimetric-Fourier transform infrared spectrometer-mass spectrogram (TG-FTIR-MS) analysis of microalga Nannochloropsis Oceanica under oxidative and inert torrefaction
|
Zhang;Congyu;Ho;Shih-Hsin;Chen;Wei-Hsin;Wang;Rupeng |
| 國立成功大學 |
2021-04 |
Simultaneous implementation of sludge dewatering and solid biofuel production by microwave torrefaction
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Zhang;Congyu;Ho;Shih-Hsin;Chen;Wei-Hsin;Eng;Fong, Chun;Wang;Chin-Tsan |
| 國立成功大學 |
2020-09 |
Microalgal Torrefaction for Solid Biofuel Production
|
Ho;Shih-Hsin;Zhang;Congyu;Tao;Fei;Zhang;Chaofan;Chen;Wei-Hsin |
| 國立成功大學 |
2019-06-15 |
Comparison and characterization of property variation of microalgal biomass with non-oxidative and oxidative torrefaction
|
Zhang;Congyu;Wang;Chengyu;Cao;Guoliang;Chen;Wei-Hsin;Ho;Shih-Hsin |
| 國立成功大學 |
2019-02-1 |
Oxidative torrefaction of biomass nutshells: Evaluations of energy efficiency as well as biochar transportation and storage
|
Zhang;Congyu;Ho;Shih-Hsin;Chen;Wei-Hsin;Fu;Yujie;Chang;Jo-Shu;Bi;Xiaotao |
| 國立成功大學 |
2018-09 |
Characterization of biomass waste torrefaction under conventional and microwave heating
|
Ho;Shih-Hsin;Zhang;Congyu;Chen;Wei-Hsin;Shen;Ying;Chang;Jo-Shu |
| 國立成功大學 |
2018-06-15 |
Torrefaction performance and energy usage of biomass wastes and their correlations with torrefaction severity index
|
Zhang;Congyu;Ho;Shih-Hsin;Chen;Wei-Hsin;Xie;Youping;Liu;Zhenquan;Chang;Jo-Shu |
