<b> </b> Carbon emissions and mass output at different temperatures. by Ning Zuo (17295415)

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SEM images of cobalt nitrate synthesised under different hydrothermal conditions. by Ning Zuo (17295415)

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(a) Biogas yield as a function of temperature for both the integrated system (bio-oil and biochar combined with anaerobic digestion) and the control (microbial inoculum without pyr... by Ning Zuo (17295415)

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Analysis of biogas composition at different temperatures. by Ning Zuo (17295415)

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Stir casting setup with furnace. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

ANOVA for GRG. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Effect of Sliding Speed on GRG. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Impact of dispersoids on the Porosity of AMCs. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Image of Pin on disc setup. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Effect of Sliding Distance on GRG. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Micrograph of worn pin of LM6  by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Input Parameters and their levels. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Impact of B₄C & Fly ash on the Density of AMCs. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Effect of Load on GRG. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Surface structure of B₄C. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Response table for GRG. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Effect of Reinforcement Percentage on GRG. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Surface structure of fly ash particles. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Elemental composition of Fly Ash. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”

Composition of LM6 alloy. by Charles Sarala Rubi (21608723)

“…</p><p>Results</p><p>Based on this study, the optimal values of S – 1.5 m/s, D – 500 m, L – 30 N, and R% – 9 wt% Hybrid (4.5% Fly ash and 4.5% B₄C) are found to yield the lowest SWR and CoF. Wear rate of composite decreased with an increase in reinforcement particles. …”