VIVEKANANDA REDDY

R -esultshdriven mecxanical engineer witx a relentless endeavor to manifest strong txeoretical eq&ertise in material sciences and manufacturing tecxnologies into &ractical industrial usehcases. R passionate about driving innovation and sustainability, witx a &roven track record of im&lementing costheffective solutions and delivering uality im&rovements.z R Skilled in a&&lying advanced engineering &rinci&les to o&timiEe &rocesses, enxance efPciency, and ensure txe xigxest standards of &roduct uality. R proPcient in materials selection, &rocess o&timiEation, and uality control.z R jqcels in &roNect management, collaborating witx crosshfunctional teams, and effectively communicating com&leq tecxnical conce&ts.z R Committed to delivering &ractical solutions txat adxere to txe &rinci&les of economy, efPciency, and sustainability. Motivated Engineer recognized for strong critical thinking and problem-solving abilities coupled with successful [Number]-year track record in industry. Dedicated to offering innovative solutions to eliminate legacy issues and elevate performance metrics. Diligent creator of innovative workflows and exceptional final products.

• Guangqing Zhang, Senior Lecturer, School of Mechanical, Materials, Mechatronic and Biomedical Engi, University of Wollongong, gExang@uow.edu.au
• Amar Singh, General Manager, Sansun Industries Limited, Nasik, India, sansun.industries@gmail.com

Carbonylation of limonitic laterite ore for extraction of Cobalt and Nickel, 03/2022, 02/2023, A sustainable and commercially viable metallurgical solution was &ro&osed to efPciently eqtract cobalt and nickel from limonitic laterite ore. jqtraction &erformance and eq&erimental efPciency of carbonylation &rocess was enxanced by txe addition of sul&xur(S) and cxlorine (cl) containing additives, sucx as Calcium cxloride (CaCl2), Jron (JJ) sul&xate (VeSO4), Jron (JJJ) cxloride (VeCl3) and Jron sul&xide (VeS). Demonstrated skills in eq&erimental design, data analysis, and metallurgical &rocesses. Sustainability analysis of a dwelling house in Wollongong - Case study, 02/2022, 06/2022, A &ractical assessment of txe s&ecimen building was &erformed witx an intention to im&rove its overall sustainability in terms of energy and water consum&tion. Xuilding sustainable indeq (XASJZ) online tool was de&loyed to analyEe its water usage, txermal efPciency and energy consum&tion based on tecxnical in&uts. Suggested tailored design solutions covering as&ects like landsca&e, water resource management and ventilation system, to strategically enxance energy savings by 25: and water savings by 40:. Designing shop floor space for Gravitas Technologies Pvt Ltd, 07/2021, 11/2021, Designed and develo&ed a new sxo& /oor s&ace for Gravitas 7ecxnologies pvt Ltd, o&timiEing txe efPciency of engineering o&erations, functionality of macxinery, and s&ace utiliEation. Conducted a com&rexensive analysis of work/ow &atterns and e ui&ment re uirements to ensure seamless o&erations and enxance &roductivity. Jncor&orated a robust xealtx, ventilation, and air conditioning system to ensure txe xealtx and safety of workforce witxin txe sxo& /oor environment. jnsured com&liance witx Australian and Iew 'ealand (ASLI'S) engineering standards, adxering to regulations and industry best &ractices. Critical analysis of smart automation technologies, 02/2021, 06/2021, presented an inhde&tx com&arative analysis of four &o&ular smart automation networking tecxnologies, including WihVi, Xluetootx, 'ig Xee, 'hwave, and 7xread. jvaluated txese tecxnologies based on txeir tecxnical &rowess, &erformance s&eciPcations, differentiating features, userhfriendliness, and ada&tability to various a&&lications. Assessed txe sustainability as&ects of eacx tecxnology, including txeir energy efPciency, environmental im&act, and longhterm viability. provided recommendations based on txe analysis to guide decisionhmaking in ado&ting txe most suitable smart automation tecxnology for s&eciPc a&&lications. Jllustrated skills in tecxnology assessment, cost analysis, and sustainability assessment for smart automation tecxnologies. Building prototype of solar powered Agricultural Rover, 01/201%, 03/2018, Designed and built a sustainable and ecohfriendly &rototy&e of an agricultural rover &owered by solar energy. Develo&ed txe rover ca&able of &erforming zactivities sucx as sowing, weeding, s&raying &esticides, watering, and &lowing, effectively enxancing yield and &roductivity in agriculture. Conducted rigorous testing and iteration to ensure txe roverMs reliability, durability, and ease of o&eration in diverse agricultural environments. Demonstrated a costheffective and sustainable solution to address key cxallenges in agriculture, wxile minimiEing environmental foot&rint. Sxowcased skills in &rototy&ing, system integration, and resource efPciency.