Displaying all 6 results
- Conference Session
- Green and Sustainable Manufacturing Practices
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Irina Nicoleta Ciobanescu Husanu, Drexel University (Tech.)
- Tagged Divisions
- Manufacturing
] Torque: T[N·m] = N[rad/s]For this project, we assume that the torque of the air motor is equivalent to the torque of the gearpump. Therefore, we could calculate the overall efficiency of the gear pump. (pressure)(�lowrate) ɳoverall = T×NTo calculate the power of the air motor, Power = Hm[m] × γ × Q, where Q is the volumetric flow rate and Hm is the head pump. T[N·m]×N[rad/s] Power [kW] = 1000 The appropriate equations are applied to the air system and water system, and the energy head losses are compared
- Conference Session
- Green and Sustainable Manufacturing Practices
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Irina Nicoleta Ciobanescu Husanu, Drexel University (Tech.); Carlos Michael Ruiz, Drexel University (Eng. & Eng. Tech.); Benjamin G Cohen, Drexel Department of Engineering Technology; Sarah Renee Andrieux
- Tagged Divisions
- Manufacturing
weight of thefluid, Z is the elevation and v is the velocity. H denotes head due to the presence of the motor,pump and losses. In order to determine the torque of the gear pump, the rpm of the pump’s shaftmust be measured using a tachometer. 2π N[rad/s] = 60 N[rpm], where N[rpm] is the measured value from the tachometer Pump Power[W] Torque: T[N·m] = N[rad/s]For this project, we assume that the torque of the air motor is equivalent to the torque of the gearpump. Therefore, we could calculate the overall efficiency of the gear pump. (pressure)(�lowrate) ɳoverall = T×NTo calculate the power of the air motor, Power = Hm[m] × γ × Q
- Conference Session
- Green and Sustainable Manufacturing Practices
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Tzu-Liang Bill Tseng, University of Texas, El Paso; Aditya Akundi, University of Texas, El Paso; Hoejin Kim, University of Texas, El Paso
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
required to operate andmaintain these manufacturing systems. The proposed course is well designed for students to learndifferent aspects of skills and knowledge over a period one semester giving graduates a valuableadvantage in an increasingly competitive job market. This proposed course can be a part ofadvanced material and manufacturing or 4D printing (e.g. self-healing and shape memorycomposites) courses for sophomore and junior levels.References[1] Q. Ge, C. K. Dunn, H. J. Qi, and M. L. Dunn, "Active origami by 4D printing," Smart Materials and Structures, vol. 23, p. 094007, 2014. [2] S. Tibbits, "4D printing: multi‐material shape change," Architectural Design, vol. 84, pp. 116‐121, 2014. [3] Z. X. Khoo, J. E. M
- Conference Session
- Capstone Projects in Manufacturing
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Richard Chiou, Drexel University (Eng. & Eng. Tech.); Michael G Mauk P.E., Drexel University; Carlos Michael Ruiz, Drexel University (Eng. & Eng. Tech.)
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
/sites/msf.org/files/how_low_can_we_go_vl_pricing_brief.pdf[7] H. Shafiee, S. Q. Wang, F. Inci, M. Toy, T. J. Henrich, D. R. Kuritzkes, et al., "Emerging Technologies for Point-of-Care Management of HIV Infection." vol. 66, ed PALO ALTO: ANNUAL REVIEWS, 2015, pp. 387-405.[8] U. Demirci and H. Shafiee, "System and method for detecting pathogens," ed: Google Patents, 2014.[9] M. M. Müller, M. I. G. Fraile, M. K. Hourfar, L. B. Peris, W. Sireis, M. G. Rubin, et al., "Evaluation of two, commercial, multi dye, nucleic acid amplification technology tests, for HBV/HCV/HIV 1/HIV 2 and B19V/HAV, for screening blood and plasma for further manufacture," Vox Sanguinis, vol. 104, pp. 19-29, 2013.[10] C. PEREIRA
- Conference Session
- Design & Development Projects and Practices
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Zhenhua Wu, Virginia State University; Laban K. Rutto; Shahzad Akbar, Virginia State University
- Tagged Divisions
- Manufacturing
grant and VSU Engineering andComputer Science Department are deeply appreciated. The hard work from the dryer group in theVSU MANE 450 in Spring 2017 is thankfully acknowledged.Reference[1] D. Gilliam, J. Williams, and Q. Harvey, “The Design and Implementation of a Hops Dryer”,MANE 450 Project Final Report, Virginia State University, Spring 2017.[2] Engineering Student Handbook, Virginia State University, 2013[3] J. Cagan and C. M. Vogel, Creating Breakthrough Products-Innovation from ProductPlanning to Program Approval, Prentice Hall, 2002.[4] L. Siegle, H. Scoggins, S. Driver, and D. Kistler, “Hops in Virginia-2014 Grower Survey”,Virginia Cooperative Extension, 2015.[5] J. Tapke, A. Muller, G. Johnson, and J. Siec, "House of Quality: Steps in
- Conference Session
- Manufacturing Curriculum and Course Innovations
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Vishal R Mehta, Ohio Northern University; David R Mikesell P.E., Ohio Northern University
- Tagged Divisions
- Manufacturing
entrepreneurialmindset in engineering education: Project approach. Proceedings - Frontiers in EducationConference. 121-126. 10.1109/FIE.2013.6684799.[6] A. Huang-Saad, "Fostering the entrepreneurial mindset in the engineering classroom," 200939th IEEE Frontiers in Education Conference, San Antonio, TX, 2009, pp. 1-6.doi: 10.1109/FIE.2009.5350763.[7] Erdil, N. O., & Harichandran, R. S., & Nocito-Gobel, J., & Carnasciali, M., & Li, C. Q.(2016, June), Integrating e-Learning Modules into Engineering Courses to Develop anEntrepreneurial Mindset in Students. Paper presented at 2016 ASEE Annual Conference &Exposition, New Orleans, Louisiana. 10.18260/p.25800.[8] Mikesell, D. R., & Chen, T., & Ma, J., & Ali, A. (2015, June), Improving