Department of Chemical Engineering
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Item Metabolomic profiling of cow urine of various breeds reveals bioactive metabolites of diverse industrial applications(Springer, 2025-07) Yadav, Sushil Kumar; Sheth, Pratik N.Cow urine is widely utilized for medicinal and agricultural purposes in rural areas of India, with urine from indigenous cow breeds (Bos indicus) believed to offer unique benefits compared to that of exotic (Bos taurus) breeds. This research aimed to profile the metabolites present in the urine of indigenous breeds of cows using gas chromatography–mass spectrometry (GC–MS) and to explore the potential applications of the identified compounds by referencing the established literature. The various cow breeds included in the study were Gir, Sahiwal, Gangatiri, Hariana, Kankrej, Rathi, Gaolao, and Jersey. Cows employed in the study to collect the samples from various locations differed in their body weight, age, and stage of lactation. GC–MS analysis revealed a range of compounds, including ethanone, cresol, bis(2-ethylhexyl) phthalate, phenol, eicosane, pentanol, isobutyl ester, ethyl ester, binapacryl, trifluoroacetate, xylene, amylene hydrate, dibutyl ester, and formamide. Notably, several compounds were consistently observed across multiple indigenous breeds. For instance, bis(2-ethylhexyl) phthalate and xylene were found in nearly all indigenous breeds, while ethanone was detected in Gir, Sahiwal, Gangatiri, Kankrej, Hariana, Gaolao as well as Jersey cows. Similarly, eicosane and pentanol were present in Gangatiri and Hariana breeds. These overlapping chemical signatures highlight potential metabolic similarities among the studied cow breeds. The identified compounds are known for their diverse industrial and pharmaceutical applications, including use in disinfectants, flavorings, cosmetics, and agrochemicals as well as metabolic engineering. Thus, this study—for the first time—comprehensively delineated the comparative metabolite profile of cow urine among different breeds of cows. The spectrum of urinary metabolites identified could offer opportunities to foster bio-based innovations having multifarious applications, including new product developments, across diversified fields.Item Chemical characterization of refuse derived fuel (RDF) using Py-GC/MS(Elsevier, 2024-05) Sheth, Pratik N.The conversion of municipal solid waste (MSW) to refuse-derived fuel (RDF) and its utilization as an alternative fuel in the cement industry has been an emerging trend. However, RDF is highly heterogeneous, with its complex composition changing with season and source. This work is focused on the chemical characterization of six RDF samples listed as A, B, C, D, E, and F from different locations across the country using pyrolysis gas chromatography-mass spectrometry (Py-GC/MS), thermogravimetric instrument and CHONS elemental analyzer. Qualitative and semi-quantitative results were obtained using EGA, single-shot and double-shot analysis methods. EGA has been used to derive qualitative results in correlation with TGA. FTIR analysis was carried out to understand the initial functional characterization. XRF analysis along with ICP-MS triple quad revealed the inorganic makeup of the samples. Single-shot results indicated that apart from non-hydrocarbon gases (CO2 and O2), the long-chain alkenes were most abundant, followed by alkanes, aromatic compounds, and ketones. Double-shot analysis indicated the presence of chloride and sulphur-based compounds in RDF samples as limiting components. Polystyrene contribution to LHV of RDF has been highlighted. The study can be further used to conduct compositional studies of RDF and its pyrolytic behavior in the gasifier. It will further strengthen the future gasifier models where pyrolysis is one of the critical steps. This technique will be very helpful in obtaining a better characterization of volatile and non-volatile (bio-oil and ash) fractions of the pyrolytic products.Item Correction to: deciphering cleaner and sustainable frontiers in scientific cow waste valorization: a review(Springer, 2024-09) Sheth, Pratik N.; Yadav, Sushil Kumar