https://chemical.journalspub.info/index.php?journal=JCME&page=issue&op=feedInternational Journal of Chemical and Molecular Engineering2023-06-16T06:49:12+00:00Komalchemistry.editor@celnet.inOpen Journal Systems<p><strong><span id="lblJournalName">International Journal of Chemical and Molecular Engineering</span> (IJCME): </strong>It<strong> </strong><span id="lblDiscription">is a peer-reviewed journal that is dedicated to publish only good quality research works. it accepts both original research article and review papers. Both experimental and theoretical papers falling under the scope of the journal are welcome.<span> </span><span>It's a biannual journal.</span></span></p><p><strong>Journal DOI No: 10.37628/IJCME</strong></p><p><strong>Indexed In: Journal TOC, Google Scholar, </strong></p><p><strong>Readership: Graduate, Postgraduate, Research Scholars, faculty</strong></p><p><strong>Focus and Scope Cover:</strong></p><p>• Computational Biology<br />• Molecular Evolution<br />• Cell Molecular<br />• Molecular Development Biology<br />• Molecular Enzymology<br />• Molecular Virology<br />• Bioinformatics<br />• Molecular Dynamics<br />• Chemical Reactor<br />• Molecular Graphics<br />• Molecular Mechanics<br />• Chemical Process Modeling<br />• Molecular Modeling</p><p><span>All contributions to the journal are rigorously refered and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</span></p><p><a href="/index.php?journal=JCME&page=about&op=editorialTeam"><strong>EDITORIAL BOARD</strong></a></p>https://chemical.journalspub.info/index.php?journal=JCME&page=article&op=view&path%5B%5D=1356AI Applications: Does it Affect Carbon Emissions?2023-06-16T05:34:26+00:00Shubham Kamlesh Shuklashubhamsukla74@gmail.comApeksha Pathakshubhamsukla74@gmail.com<p>As a result of the Paris Agreement, nations have vowed to achieve carbon neutrality and reduce greenhouse gas emissions. India, the third-largest emitter of carbon dioxide in the world, has pledged to reduce the emission intensity of its GDP by 33–55% by 2030 and to generate 40% of the installed electric power capacity from non-fossil fuel sources. Yet, measuring India's progress towards its NDCs is difficult due to the country's inconsistent emission reporting standards. This research paper examines the potential influence of applications of artificial intelligence (AI) on India's progress towards carbon neutrality. In order to cut emissions and advance sustainable development, the study will examine the potential advantages of AI applications in a variety of sectors, including agriculture, transportation, and renewable energy. Additionally, the feasibility of AI implementation in India and its utility in assisting the nation in achieving its NDCs will be examined. In order to hasten India's transition to carbon neutrality, the project will also look into potential policy ramifications and policymakers'suggestions to support the adoption of AI applications. The goal of this work is to improve our understanding of how AI can help us become carbon neutral and reduce greenhouse gas emissions</p>2023-05-02T09:27:25+00:00Copyright (c) 2023 International Journal of Chemical and Molecular Engineeringhttps://chemical.journalspub.info/index.php?journal=JCME&page=article&op=view&path%5B%5D=1358A Roadmap to a carbon neutral and sustainable educational campus2023-06-16T06:49:12+00:00Rohan Kanhaiyalal Guptaheyrohangupta@gmail.com<p><strong><em>The institutes, colleges are working harder than ever to account for their carbon footprint as a response to the need to lower greenhouse gas emissions. Although there are basic rules for calculating carbon footprints, they typically do not take into account unique characteristics of </em></strong><strong><em>organizations like institutes of higher education. The use of case studies as teaching aids and the development of best practices can both result from comparisons across applied approaches. Net-zero emissions of carbon dioxide are considered carbon neutral. By balancing the release of carbon dioxide with its removal through carbon offsetting, or by limiting the release of carbon dioxide from society, colleges, and educational campuses to govern the Carbon neutrality will be attained in the "post-carbon economy."</em></strong><strong><em>The work's main objective was to take into account various types and scopes of emissions that reflect indirect greenhouse gas emissions unrelated to energy, such as travel and the purchase of research and laboratory equipment. This study's other objective was to demonstrate the constraints that can arise when analyzing caused emissions at the organizational level and how the calculated carbon footprint can be used to find the most effective mitigation strategies and opportunities for universities to achieve carbon neutrality</em></strong></p>2023-03-31T00:00:00+00:00Copyright (c) 2023 International Journal of Chemical and Molecular Engineeringhttps://chemical.journalspub.info/index.php?journal=JCME&page=article&op=view&path%5B%5D=1370Production of Sodium Hexametaphosphate2023-06-16T05:34:26+00:00Hrishikesh S. Yadavhrishikeshyadav45@gmail.comAmod S. Padgehrishikeshyadav45@gmail.comPrathamesh S. Katkarhrishikeshyadav45@gmail.comMeera T. Sosehrishikeshyadav45@gmail.comPratibha Gawandehrishikeshyadav45@gmail.com<p>Aim of this study is to undertake a complete analysis that will lead to an integrated design in chemical engineering. Which plant generates sodium hexametaphosphate with a predetermined production capacity consideration Aspects such as plant process unit designs, process flow diagrams, cost<br />calculations, operating parameters, equipment size, construction materials, and safety considerations will be considered in the research. The project utilities are the theoretical and practical application of mass transfer, heat transfer, fluid dynamics, unit operations, and process control. The sodium<br />hexametaphosphate, which is a polymer of sodium orthophosphate, is the objective product of plant by sodium hexametaphosphate. It is widely used as a food quality improver and preservative in the food industries, pharmaceutical industries and cosmetics, acting as a water softener in boiler water of power plants and other industrial water. SHMP will be manufactured in this project using a neutralization process followed by melt polymerization at elevated temperature. The required reaction is endothermic, yielding 90-92 percent overall. The project's goal is to produce 100 kg of SHMP per year. Three major components resolve uncertainty in this plant: a reactor, a crystallizer, a filter, and mixing tanks. Pumps, a rotary drier, and a condenser are all included. All must be constructed and operated in accordance with this capacity.</p>2023-03-30T00:00:00+00:00Copyright (c) 2023 International Journal of Chemical and Molecular Engineeringhttps://chemical.journalspub.info/index.php?journal=JCME&page=article&op=view&path%5B%5D=1314Modeling of Mechanism of the Formation of Aqueous Solutions of Catholyte and Anolyte During Electrolysis and Their Effect on a Biological Cell2023-06-16T05:34:26+00:00MICHAEL SHOIKEDBRODmichaelshoikhedbrod@bell.net<p>The article presents the results of modeling of the mechanism of formation of an aqueous solution of catholyte and anolyte, showing that the aqueous solution of catholyte is formed by negatively charged hydrogen bubbles, released from the cathode, isolated from the anode during electrolysis, which float to the surface of water, saturate it with hydrogen (hydrogen water or catholyte solution) and charge it negatively. An aqueous solution of the anolyte is formed due to positively charged oxygen bubbles released from the anode, isolated from the cathode during electrolysis, which float to the surface of the water, saturate it with oxygen (oxygen water or anolyte solution) and positively charge it. The modeling results showed that in a biological cell placed in a negatively charged medium of an aqueous solution of catholyte, metabolic processes are activated, leading to its rapid reproduction. The modeling results also showed that in a biological cell, placed in a positively charged environment of an aqueous solution of anolyte, its metabolic processes with the environment stop and it dies after<br />losing nutrition and other vital resources. The author, using negatively charged microdispersed hydrogen bubbles and a negative charge of a catholyte solution, developed a method, embodied in the developed electroflotator- concentrator, which made it possible to obtain a high-quality concentrate of rapidly multiplying biological cells (Chlorella, Dunaliella). The author, using negatively charged<br />microdispersed hydrogen bubbles, positively charged oxygen bubbles and a positive charge of the anolyte solution, developed a method, embodied in the developed two-chamber daily medical lymphatic continuous type purifier for recirculation in a closed circuit, which allowed all increases in the concentrations of lymph microcomponents to lead to a normal form of lymph concentrations<br />healthy person, to destroy and to remove dead cancer cells from the patient's lymph.</p>2022-11-01T11:27:26+00:00Copyright (c) 2022 International Journal of Chemical and Molecular Engineeringhttps://chemical.journalspub.info/index.php?journal=JCME&page=article&op=view&path%5B%5D=1311Assess of Basal cell carcinoma2023-06-16T05:34:26+00:00A. Mohamed Sikkanderams240868@gmail.com<p>Skin that is frequently exposed to the sun develops basal cell carcinoma in those places. When your doctor tells you that you're suffering from it, it's normal to feel anxious, but remember that it is the least dangerous type of skin cancer. Although it's rare that the cancer will migrate from the skin to other body parts, it may do so to neighbouring bones or tissues beneath the skin. There are certain medicines that can stop this and eradicate the malignancy. The chest, legs, and arms are more prone to develop this disease than other areas of the body. Tumors typically start as little, glossy lumps on the nose and other parts of the face, but they can occur elsewhere on the body. Basal cell carcinoma often progresses very slowly and usually does not manifest until years after extensive or protracted sun exposure. Tanning bed use and excessive sun exposure might cause early onset. Basal cell cancer might appear differently, a n a vascularized, dome-shaped skin growth could be visible. Pink, brown, or black are the available colours. Small, "pearl-like" bumps with a flesh-colored appearance that never go away are the early signs of basal cell carcinoma. These enlargements can occasionally seem hopeless, a lternately, you can notice areas that are slightly scaly, glossy, pink, or red. Hard, waxy skin growths are a different sign to watch and, in addition to being delicate, basal cell carcinomas are indeed prone to bleeding. Sunlight or tanning beds' ultraviolet (UV) rays are the main causes of basal cell cancer. Long-term DNA damage to skin cells can result from UV radiation exposure. These cells' growth instructions are encoded in their DNA and cancer can develop over time as a result of DNA damage. This procedure requires many years. The growth will be sampled or biopsied by your doctor. A portion of the skin is removed after they numb the area, and they are then delivered to a lab where cancerous cells are examined.</p>2022-09-19T00:00:00+00:00Copyright (c) 2022 International Journal of Chemical and Molecular Engineeringhttps://chemical.journalspub.info/index.php?journal=JCME&page=article&op=view&path%5B%5D=1281Review of Polypeptides (Amino Acids) with a High Molecular Weight2022-09-01T09:12:30+00:00Pooja Jaiswalpoojajaiswal2609@gmail.com<p>Polypeptides are chains of amino acids that are continuous and unbranched and are connected by polypeptide chain. The peptide bond joins the carbon-carbon double bond of one amino acid with the amine group of the following amino acid to produce an amide. As the constituents of muscles, bones, hair, and fingernails as well as the building blocks of enzymes, antibodies, muscles, and connective<br />tissue, proteins play a significant role in biology. Since they contain small chains of amino acids than polypeptides, peptides are different from polypeptides. In the disciplines of biomaterials and biomedicine, polypeptides are frequently used. Since Hermann Leuchs first described Ncarboxyanhydride (NCA) in 1906, polypeptides have frequently been made using NCAs by ringopening polymerization. It is difficult to efficiently synthesize polypeptides with high molecular weight despite ongoing advances. Additionally, moisture-tolerant, open-flask compatible, and terminally controllable NCA polymerization. The varied NCA monomers and associated polypeptides’ solubility requirements were met by this NCA polymerization, which could proceed in the majority of common<br />solvents. The gram-scale synthesis of chain length polypeptide chains in an open flask was also made possible by this NCA polymerization. It is still difficult to synthesize high molecular weight polypeptides using traditional solution phase synthesis, despite significant work having been put into designing the initiators and reaction conditions. The vapor deposition polymerization in this work is<br />surface initiated.</p>2022-09-01T09:12:05+00:00Copyright (c) 2022 International Journal of Chemical and Molecular Engineering