Department of Chemical Engineering
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Item Sustainable valorization of macroalgae residual biomass, optimization of pyrolysis parameters and life cycle assessment(Elsevier, 2024-04) Sangwan, Kuldip Singh; Raghuvanshi, SmitaThe major challenges for the current climate change issue are an increase in global energy demand, a limited supply of fossil fuels, and increasing carbon footprints from fossil fuels, which have necessitated the exploration of sustainable alternatives to fossil fuels. Biorefineries offer a promising path to sustainable fuel production, converting biomass into biofuels using diverse technologies. Aquatic biomass, such as macroalgae in this context, represents an abundant and renewable biomass resource that can be cultivated from water bodies without competing with traditional agricultural land. Despite this, the potential of macroalgae for biofuel production remains largely untapped, with very limited studies addressing their viability and efficiency. This study investigates the efficient conversion of unexplored macroalgae biomass through a biorefinery process that involves lipid extraction to produce biodiesel, along with the production of biochar and bio-oil from the pyrolysis of residual biomass. To improve the effectiveness and overall performance of the pyrolysis system, Response Surface Methodology (RSM) was utilized through a Box-Behnken design to systematically investigate how alterations in temperature, reaction time, and catalyst concentration influence the production of bio-oil and biochar to maximize their yields. The results showed the highest bio-oil yield achieved to be 36 %, while the highest biochar yield reached 45 %.Item Waste water treatment plant life cycle assessment: treatment process to reuse of water(Elsiever, 2017) Sangwan, Kuldip Singh; Raghuvanshi, SmitaThis paper presents a life cycle assessment (LCA) of waste water treatment plant (WWTP) in a university campus in India. Various emissions coming from the WWTP along with their impact factors are analyzed using a LCA software Umberto NXT Universal utilizing Eco-invent database v3.0. It has been found that the recycled water from the plant provides positive impact on the assessed categories. Effect of treatment system is overriding the effect of recycled water in other categories like terrestrial eco-toxicity potential, global warming potential, particulate matter formation, fossil depletion potential, etc. However, the social effect of untreated sewer and environmental effect of compost produced by the system have not been studied.Item Life Cycle Assessment of Filtration Systems of Reverse Osmosis Units: A Case Study of a University Campus(Elsiever, 2016) Sangwan, Kuldip Singh; Raghuvanshi, SmitaEnvironmental concerns are gaining importance in ground water resource management. Reverse osmosis (RO) systems are commonly used for filtration of surface and ground water for domestic and commercial purposes. This study aims to analyze the environmental impacts of electricity, fresh water and material consumption in various types of RO systems. The evaluation tool used for this study is life cycle assessment (LCA) and for this purpose Umberto NXT Universal software with Eco-invent version 3.0 database has been utilized. The inventory analysis has been done for RO systems of four different capacities, viz 25, 50, 250, and 500 liters per hour (LPH). This research also provides comparison of quantitative impacts of different capacity RO systems. All inclusive, the study presents an insight into the environmental impacts of various RO systems used in India and also discuss the alternative technologies for filtration of surface and ground water.