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Evaluating the Anaerobic Digester in Bhutan Scientia Research LibraryJournal of Applied Science And Research2348 - 04162024125 Chodak pages: 1-15 1 In psychrophilic digestion, biogas production is negligible, especially when the temperature drops below 15C. As the hydraulic retention period increases, the digesters volume grows and becomes unaffordable for farmers. The study evaluates the needs for an external heating system to raise the temperature of digestion to 35C in order to generate enough culinary biogas from cow manure in Bhutans colder regions. The energy economic metric known as Energy Return on Energy Invested, or EROEI, is used to evaluate the analysis. The Bumthang district is representative of Bhutans other chilly regions and is not unique. The numerical thermal model is used to examine the 5.73 m3 designed subterranean fixed dome digester. The calculated heat loss per day is 17.30 kWh. Similar techniques are also used to validate the various approaches, and the results are analyzed appropriately. Lowering the operating temperature to 18C for underground insulated digesters and 28C for greenhouse canopies was determined to be a reasonable approach. Therefore, more design and process efficiency improvements as well as a feasibility analysis of the heating system are required to increase the spread of biogas plants in Bhutans colder regions Keywords: Anaerobic Digestion, Mesophilic, Digester, Conduction. http://www.scientiaresearchlibrary.com/archive-abs.php?arc=921http://www.scientiaresearchlibrary.com/archive/Evaluating the anaerobic digester in Bhutan.pdf

Non-Linear Schrodinger Equation Solitary Wave Solutions Using Phase Amplitude Method With Higher Order Dispersion In terms of mathematics Scientia Research LibraryJournal of Applied Science And Research2348 - 04162024125 Bhim S. Dahiya pages: 1-5 1 We show that certain bifurcation is frequently used to characterize the complexity of nonlinear systems. We are able to create the streamlined approximation technique for solitary wave solution formulation. The underlying mechanisms were not fully known in the past because the bifurcation and solitary waves were typically examined independently. Only a small number of the exact or analytic solutions to nonlinear partial differential equations (PDEs) could be directly derived by integration, although predictions for their solitary waves may have existed. In my paper, I present the analytical solution of the solitary wave solution of the nonlinear Schrodinger equation with higher order dispersion. In addition, the bifurcation analysis makes the producing mechanisms and full outcomes of the existence/coexistence of kinks, anti-kinks, and solitary wave solutions more evident. Using the Phase Amplitude approach, we investigate the Bright Solitary Wave solution of NLSE and observe the nature of solutions by varying parameters. Solitons, or solitary waves, are crucial to theory and applications of the nonlinear Schrdinger (NLS) equation. Keywords: Non Linear Schrodinger Equation, Solitary Waves. http://www.scientiaresearchlibrary.com/archive-abs.php?arc=922http://www.scientiaresearchlibrary.com/archive/NonLinear Schrodinger Equation Solitary Wave Solutions Using Phase Amplitude Method With Higher Order Dispersion In terms of mathemat.pdf

The best component of the universe that is in charge of expansion is CMB Scientia Research LibraryJournal of Applied Science And Research2348 - 04162024125 Meena R pages:1-2 1 One of the universes oldest regions is the Cosmic Microwave Background (CMB). Following the Big Bang, CMB and plasma dispersed throughout the universe, producing extremely high temperatures. The universe was filled with this radiation and plasma, which progressively cooled. The photon, a massless particle, radiates energy when it gets too hot, lowering the temperature of the cosmos. Pressure and temperature are correlated, and the density of the cosmos is correlated with pressure. The pressure caused by temperature is shown in this research to be the cause of the universes accelerated expansion. However, we can observe that the current temperature of the CMB (2.7K) is too low, which causes photons to discharge highly intense radiation with a large wavelength known as a microwave. As long as the universes temperature continues to drop, photons will continue to emit radio waves, which are extremely high wavelengths of radiation. Keywords: CMB, Accelerating Expansion Universe, Planck Distribution, Black Body Radiation http://www.scientiaresearchlibrary.com/archive-abs.php?arc=923http://www.scientiaresearchlibrary.com/archive/The best component of the universe that is in charge of expansion is CMB..pdf