temperature optimization
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Polymers ◽  
2021 ◽  
Vol 13 (22) ◽  
pp. 3879
Author(s):  
Nigel Van de Velde ◽  
Saška Javornik ◽  
Tilen Sever ◽  
Danaja Štular ◽  
Matic Šobak ◽  
...  

A bio-epoxy surface adhesive for adherence of the metal component species to glass substrate with desirable adhesion strength, converted controlled removal upon request, and bio-based resource inclusion was developed. For the development of resin, three different lignin-based aromatic monophenols, guaiacol, cresol, and vanillin, were used in the chemical epoxidation reaction with epichlorohydrin. The forming transformation process was studied by viscoelasticity, in situ FTIR monitoring, and Raman. Unlike other hydroxyl phenyls, guaiacol showed successful epoxide production, and stability at room temperature. Optimization of epoxide synthesis was conducted by varying NaOH concentration or reaction time. The obtained product was characterized by nuclear magnetic resonance and viscosity measurements. For the production of adhesive, environmentally problematic bisphenol A (BPA) epoxy was partially substituted with the environmentally acceptable, optimized guaiacol-based epoxy at 20, 50, and 80 wt.%. Mechanics, rheological properties, and the possibility of adhered phase de-application were assessed on the bio-substitutes and compared to commercially available polyepoxides or polyurethanes. Considering our aim, the sample composed of 80 wt.% bio-based epoxy/20 wt.% BPA thermoset was demonstrated to be the most suitable among those analyzed, as it was characterized by low BPA, desired boundary area and recoverability using a 10 wt.% acetic acid solution under ultrasound.


Methods ◽  
2021 ◽  
Author(s):  
Fang I. Wang ◽  
Gucci Ding ◽  
Garmen S. Ng ◽  
S. Jeffrey Dixon ◽  
Peter Chidiac

2021 ◽  
Vol 913 (1) ◽  
pp. 012059
Author(s):  
D Silalahi ◽  
I G P Wirawan ◽  
M M V Sasadara

Abstract Pranajiwa plant is a medicinal plant that grows wildly and is classified as a rare plant. Currently, its existence is increasingly threatened. Pranajiwa grows around Indonesia and is known with several scientific names and morphological features due to unclear identification. Molecular identification is recommended to clarify its species. DNA Barcoding is considered the suitable method to identify pranajiwa plant molecularly. The purpose of this study was to optimized the PCR annealing temperature of EhcSnOla locus barcoding marker of pranajiwa plants collected from the coastal (Jimbaran), urban (Renon), and mountain (Bedugul) areas, representing three different areas in Bali. Research procedures include total DNA extraction, PCR procedure, and electrophoresis. The primers used in this study were EhoScnOla forward primer and EhoscnOla reverse primer. Five different temperatures were used for annealing temperature optimization: 51°C, 52°C, 55°C, 57°C, and 60°C. The result showed that all temperatures produced a clear, thick, and single electrophoresis band, indicating that all temperatures were suitable for the annealing temperature and the most optimal temperature is in the Mountains sample (Bedugul) which is 60°C. The Jimbaran, Renon, and Bedugul samples produced 882, 820, and 889 bp, respectively. EhcSnOla locus can be used as the barcoding marker to identify pranajiwa molecularly.


2021 ◽  
Author(s):  
Kathryn Hinkelman ◽  
Jing Wang ◽  
Chengliang Fan ◽  
Wangda Zuo ◽  
Antoine Gautier ◽  
...  

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Muhammad Nurdin ◽  
Haznan Abimanyu ◽  
Hadijah Putriani ◽  
L. O. M. Idal Setiawan ◽  
Maulidiyah Maulidiyah ◽  
...  

AbstractResearch on the transformation of Oil Palm Empty Fruit Bunches (OPEFB) through pretreatment process using ionic liquid triethylammonium hydrogen sulphate (IL [TEA][HSO4]) was completed. The stages of the transformation process carried out were the synthesis of IL with the one-spot method, optimization of IL composition and pretreatment temperature, and IL recovery. The success of the IL synthesis stage was analyzed by FTIR, H-NMR and TGA. Based on the results obtained, it showed that IL [TEA][HSO4] was successfully synthesized. This was indicated by the presence of IR absorption at 1/λ = 2814.97 cm−1, 1401.07 cm−1, 1233.30 cm−1 and 847.92 cm−1 which were functional groups for NH, CH3, CN and SO2, respectively. These results were supported by H-NMR data at δ (ppm) = 1.217–1.236 (N–CH2–CH3), 3.005–3.023 (–H), 3.427–3.445 (N–H+) and 3.867 (N+H3). The TGA results showed that the melting point and decomposition temperature of the IL were 49 °C and 274.3 °C, respectively. Based on pretreatment optimization, it showed that the best IL composition for cellulose production was 85 wt%. Meanwhile, temperature optimization showed that the best temperature was 120 °C. In these two optimum conditions, the cellulose content was obtained at 45.84 wt%. Testing of IL [TEA][HSO4] recovery performance for reuse has shown promising results. During the pretreatment process, IL [TEA][HSO4] recovery effectively increased the cellulose content of OPEFB to 29.13 wt% and decreased the lignin content to 32.57%. The success of the recovery process is indicated by the increasing density properties of IL [TEA][HSO4]. This increase occurs when using a temperature of 80–100 °C. The overall conditions obtained from this work suggest that IL [TEA][HSO4] was effective during the transformation process of OPEFB into cellulose. This shows the potential of IL [TEA][HSO4] in the future in the renewable energy sector.


2021 ◽  
Author(s):  
Kathryn Hinkelman ◽  
Jing Wang ◽  
Chengliang Fan ◽  
Wangda Zuo ◽  
Antoine Gautier ◽  
...  

District cooling (DC) continues to proliferate due to increasing global cooling demands and economies of scale benefits; however, most district-scale modeling has focused on heating, and to the best of our knowledge, researchers have yet to model cooling plants featuring waterside economizers in DC settings. With the Modelica Buildings library expanding its capabilities to district scale, this study is one of the first to demonstrate how the open-source models can be used for detailed energy and control analysis of a DC plant. For a real-world case study, we developed and calibrated high-fidelity models for a DC system central plant at a college campus in Colorado, USA, and we optimized the condenser water supply temperature (CWST) setpoint for a DC plant across multiple time horizons using the Optimization library in Dymola. Results indicate that annual CWST optimization saves 4.7% annual plant energy, with less than 1% of additional energy savings gained through daily optimization. This confirms previous studies' findings that high frequency CWST optimizations are not necessary for the studied system.


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