Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Schematic illustration of the proposed role of XO and NOX4 in the heart of PG-LPS-treated mice. by Akinaka Morii (12709672)

Robustness of the computational results. by Farhad Razi (22076077)

Effect of 0.1mM salicylic acid (SA) or hydrogen peroxide (H₂O₂) and salt treatment (0 and 75 mM NaCl) on hydrogen peroxide (H₂O₂) conten... by Amal Bouallegue (21512298)

Subjects:

Fig 6 - by Teagan McMahon (20108036)

The proportional change in maximum height for the five study groups. by Teagan McMahon (20108036)

Normality test using the Shapiro-Wilk test. by Akinaka Morii (12709672)

“…The left ventricular ejection fraction was significantly decreased in PG-LPS-treated mice compared to the control (from 68 ±  1.3 to 60 ±  2.7%), while allopurinol ameliorated the dysfunction (67 ±  1.1%). …”

Flow chart of study participants. by Eva Rydahl (6260771)

“…</p><p>Conclusion</p><p>Implementing a multi-component initiative to reduce cesarean sections has demonstrated both effectiveness and clinical significance. If such a strategic implementation can be conducted elsewhere, it could yield substantial benefits for maternal and fetal health.…”

Raw metabolomic data. by Bhuripit Saraphol (20855573)

“…A low BCS is associated with decreased milk production and fertility. While genetic and nutritional factors have previously been associated with BCS, their effects are often moderate. …”

Absolute numbers among CS groups. by Eva Rydahl (6260771)

“…</p><p>Conclusion</p><p>Implementing a multi-component initiative to reduce cesarean sections has demonstrated both effectiveness and clinical significance. If such a strategic implementation can be conducted elsewhere, it could yield substantial benefits for maternal and fetal health.…”

Schematic diagram of the experimental workflow. by Bhuripit Saraphol (20855573)

“…A low BCS is associated with decreased milk production and fertility. While genetic and nutritional factors have previously been associated with BCS, their effects are often moderate. …”

The Influence of Nucleating Agent Positional Isomer Structure on the Nucleation Efficiency of Poly(lactic acid): Interaction-Induced Conformational Transitions under High Lattice M... by Jingbo Wu (328587)

“…The “lattice mismatch” and “intermolecular interactions” are two critical parameters influencing the effectiveness of nucleating agents, significantly impacting the enhancement of polymer crystallization performance. …”

The Influence of Nucleating Agent Positional Isomer Structure on the Nucleation Efficiency of Poly(lactic acid): Interaction-Induced Conformational Transitions under High Lattice M... by Jingbo Wu (328587)

“…The “lattice mismatch” and “intermolecular interactions” are two critical parameters influencing the effectiveness of nucleating agents, significantly impacting the enhancement of polymer crystallization performance. …”