Mark Daugherty has extensive experience leading technology companies and managing research and development projects. He holds a Ph.D. in Mechanical Engineering and a J.D. and has served as CEO or president of several startups, overseeing operations, fundraising, and licensing of technologies. Currently he is Chief Operating Officer of Versatran Global, a company developing a transfer chair to assist caregivers. He has 20+ technical publications and patents and volunteers on nonprofit boards related to renewable energy and healthcare.
The Colorado Cleantech Industry Association (CCIA) is offering “Advanced Water Management: Using Cleantech to Manage Scarce Resources,” February 25, with keynote presentation by Cameron Brooks on IBM’s Smarter Planet Initiatives. IBM is already staking claims in the smart grid industry to better manage electricity. Now it\'s doing the same for water, with a broad offering that will include developing sensor and intelligence networks for water utilities, smart water meters and a new technology for water filtration.
LIGHTING THE ACADEMIC COMMONS: A Case Study of Electricity Efficiency of Inca...Jenkins Macedo
This project explored the efficiency of the lighting systems at the Academic Commons (AC) at the Goddard Library at Clark University as part of an academic research paper for the
Technology for Renewable Energy course taught by Dr. Charles Agosta, Chair of the Physics Department. The study builds on students' responses to informal and open-ended surveys and electricity energy consumption data from the lighting systems. The data were analyzed using a 2010-MS Excel base calculator to provide descriptive statistics on demographic characteristics and statistical analysis of electricity used via lighting to determine energy cost, savings, CO2 emissions, and offsets by comparing the status quo (CFL lamps) against two hypothetical scenarios. The results indicate that, while the CFL lamps electricity consumption seems efficient in terms of CO2 emissions and cost compared to incandescent lamps, converting the lighting systems to LEDs would reduce CO2 emissions substantially and contribute to Clark University’s goal of zero emissions by 2020 thereby saving cost. The results suggest that Clark University
would be saving about $3,687.00/year in lighting systems at the AC, while reducing 18,420 lbs. of CO2/year against the status quo of 147,355 lbs. of CO2/year.
Key Words: Energy efficiency, Lighting, Academic Commons, Clark University, greenhouse gases, electricity
Dynasty Resort is one of the best Hotels in Nainital. Dynasty Resort welcomes you to make your own enchanting memories and cherish them forever. for more info visit here:- http://www.dynastyresort.com/
The Colorado Cleantech Industry Association (CCIA) is offering “Advanced Water Management: Using Cleantech to Manage Scarce Resources,” February 25, with keynote presentation by Cameron Brooks on IBM’s Smarter Planet Initiatives. IBM is already staking claims in the smart grid industry to better manage electricity. Now it\'s doing the same for water, with a broad offering that will include developing sensor and intelligence networks for water utilities, smart water meters and a new technology for water filtration.
LIGHTING THE ACADEMIC COMMONS: A Case Study of Electricity Efficiency of Inca...Jenkins Macedo
This project explored the efficiency of the lighting systems at the Academic Commons (AC) at the Goddard Library at Clark University as part of an academic research paper for the
Technology for Renewable Energy course taught by Dr. Charles Agosta, Chair of the Physics Department. The study builds on students' responses to informal and open-ended surveys and electricity energy consumption data from the lighting systems. The data were analyzed using a 2010-MS Excel base calculator to provide descriptive statistics on demographic characteristics and statistical analysis of electricity used via lighting to determine energy cost, savings, CO2 emissions, and offsets by comparing the status quo (CFL lamps) against two hypothetical scenarios. The results indicate that, while the CFL lamps electricity consumption seems efficient in terms of CO2 emissions and cost compared to incandescent lamps, converting the lighting systems to LEDs would reduce CO2 emissions substantially and contribute to Clark University’s goal of zero emissions by 2020 thereby saving cost. The results suggest that Clark University
would be saving about $3,687.00/year in lighting systems at the AC, while reducing 18,420 lbs. of CO2/year against the status quo of 147,355 lbs. of CO2/year.
Key Words: Energy efficiency, Lighting, Academic Commons, Clark University, greenhouse gases, electricity
Dynasty Resort is one of the best Hotels in Nainital. Dynasty Resort welcomes you to make your own enchanting memories and cherish them forever. for more info visit here:- http://www.dynastyresort.com/
I have many skills that would make me a great employee for your company. Some of them include being bilingual in Spanish, B.A. degree, computer skills, internet knowledgeable, management skills, behavioral modification, therapeutic behavioral services and crisis response experience and training.
I have earned awards that I feel would make an employer happy to have me. These include Eagle Scout and 4 years of Perfect Attendance awards. I feel that I am qualified for any position you have open within your company. I am also a hard worker that has experience working with people from many different backgrounds. I have 51/50 training, Multi-Cultural Training, and other trainings that make me a valuable employee.
Please find enclosed my resume, which provides my experience and achievements. Also, at your request, I would be able to give you letters of recommendation from my past employers. I would appreciate the opportunity to meet with you to discuss about my further qualifications. Thank you for your time in considering my application.
A presentation made in 2009 by Nicholas de Wolff, Chair of the subcommittee on Transportation and Urban Design, City of Burbank, California. (an abridged version (only 39 slides) has since been uploaded)
Highlights from a survey of charter school authorizing professionals to better understand the diversity, equity and inclusion landscape in authorizing offices across the country.
I have many skills that would make me a great employee for your company. Some of them include being bilingual in Spanish, B.A. degree, computer skills, internet knowledgeable, management skills, behavioral modification, therapeutic behavioral services and crisis response experience and training.
I have earned awards that I feel would make an employer happy to have me. These include Eagle Scout and 4 years of Perfect Attendance awards. I feel that I am qualified for any position you have open within your company. I am also a hard worker that has experience working with people from many different backgrounds. I have 51/50 training, Multi-Cultural Training, and other trainings that make me a valuable employee.
Please find enclosed my resume, which provides my experience and achievements. Also, at your request, I would be able to give you letters of recommendation from my past employers. I would appreciate the opportunity to meet with you to discuss about my further qualifications. Thank you for your time in considering my application.
A presentation made in 2009 by Nicholas de Wolff, Chair of the subcommittee on Transportation and Urban Design, City of Burbank, California. (an abridged version (only 39 slides) has since been uploaded)
Highlights from a survey of charter school authorizing professionals to better understand the diversity, equity and inclusion landscape in authorizing offices across the country.
TEAM D WIRELESS ELECTRICITY OUTLINETeam Course Project Wi.docxmattinsonjanel
TEAM D: WIRELESS ELECTRICITY OUTLINE
Team Course Project
Wireless Electricity Outline
Team D
Muraine, Karen
Narabal, Kristopher
Oke, Karen
Pick, Wanda
Rinkus, Laura
Ryder, Christopher
Rzodkiewicz, Karolina
DeVry University
LAS 432: Tech, Society, and Culture
Professor Scott Maxon
May 10, 2015
Outline
I. Introduction – Karen Muraine
a. Topic Sentence
Wireless electricity brings many advantages to a world that has been dependent upon utilizing wires and cables to transport energy.
b. Thesis Statement
Wireless energy transmission will continue to have a significant impact on our daily lives ranging from political, economic, psychological, sociological, cultural, artistic, environmental, and ethical perspectives.
II. Description of Wireless Electricity Technology - Karen Muraine
a. Science that drove wireless technology
b. Applications of wireless technology
III. History – Karolina Rzodkiewicz
a. The idea and Techniques
b. Development and Challenges
IV. Political Causes and Legal Effects – Karen Oke
a. Policy and Scalability: Short Distance Transmission
b. Policy and Scalability: Long Distance Transmission
V. Economic Issues – Christopher Ryder
a. Financial Impact on U.S. Economy
b. Corporate Growth and Expansion
c. Chart and Graph Analysis
VI. Psychological Considerations – Wanda Pick
a. Psychological Effects from Wireless Technology
b. Maslow and Piaget’s Theory’s
c. Psychology Needs Met by Wireless Electricity
VII. Sociological Effects – Wanda Pick
a. Changes to Society Due to Wireless Electricity
b. Sociological Factors that Led to Technology Development
c. Those Who Benefit and Harmed by the Technology
VIII. Cultural Considerations – Kristopher Narabal
a. Wireless electricity in Asia
b. Wireless uses and marketing in America
IX. Artistic Links – Kristopher Narabal
a. Wireless Electricity in Movies and Music
b. Future artistic applications
X. Environmental Effects – Karolina Rzodkiewicz
a. Ethics
b. Health and Safety
c. Pollution and Green Living
XI. Moral and Ethical Considerations – Laura Rinkus
a. Quality of life, rights, theft, control, and harm to others
b. Privacy, confidentiality, accountability, authority, and responsibility
XII. Conclusion – Karen Oke
a. Analytical Summary
b. Thesis Reworded
c. Concluding Statement
LAS 432 Course Capstone Project
[Project Title]
[Course Number and Section Number]
(LAS 432 - _ _ )
[The Section Number can be located in the Email tab of the shell, just before the “Subject Line”. The 432 is your Course Number. Utilize the final two digits in that row of numbers as your Section Number, and place them above in the two underlined spaces following “LAS – “. Delete these red instructional items in brackets before submission.]
Professor’s Name
Date of Submis ...
The EnergyTech conference series began in 2010 through productive dialog and interaction between technology and systems engineers / professionals within INCOSE, IEEE, and NASA GRC. The 2015 conference addresses the changing dynamics and emerging technologies in Energy, and also deals with some of the most significant, consequential risks and issues in our critical infrastructure, posing major threats to civilized existence.
eBook University Physics for the Life Sciences, 1e Randall Knight, Brian Jone...
M Daugherty Curriculum Vitae 5-21-15
1. MARK DAUGHERTY
8595 N Deerwood Dr., Brown Deer, WI 53209
DaughertyM@asme.org 608.213.0594 (Mobile)
EDUCATION
UNIVERSITY OF WISCONSIN – MADISON UNIVERSITY OF CALIFORNIA – BERKELEY
Ph.D. Mechanical Engineering J.D., Boalt Hall School of Law
MS Mech. Engr.; BS Mech. Engr. Member, State Bar of California
PROFESSIONAL EXPERIENCE
CHIEF OPERATING OFFICER 2015
VERSATRAN GLOBAL, LTD.
Setting up new a Wisconsin Corporation to design, market and sell a transfer chair, which is device designed to assist
caregivers in moving and transferring non ambulatory patients. We have patented technology and are currently in the fund
raising stage.
CHIEF TECHNOLOGY OFFICER 2011-2013
H2SCAN, INC., VALENCIA, CA
Managed R&D for H2scan, a high technology company developing solid state hydrogen sensors for the energy,
petrochemical, and electric utility markets.
• Directed research to improve hydrogen sensor performance and reduce costs and processing times.
• Coordinated Intellectual Property activities.
• Managed manufacturing on an interim basis.
PRESIDENT/CEO 2008-2011
SOLRAYO, INC., MADISON, WI
Directed overall operations at SolRayo, a startup company using nanotechnology to develop advanced energy storage
materials for batteries and ultracapacitors.
• Helped attract equity investment and secured State and Federal grants for development.
• Licensed technology from the Wisconsin Alumni Research Foundation.
DIRECTOR OF PRODUCT DEVELOPMENT 2006-2010
TORMACH LLC, WAUNAKEE, WI
Provided product development services at Tormach, a startup company developing computer controlled machine tools for
the R&D, prototype, and small scale manufacturing markets.
• Managed development projects, developed business relationships.
• Coordinated Intellectual Property efforts and evaluated new technology.
RENEWABLE ENERGY BUSINESS DEVELOPMENT 2005-2007
WISCONSIN FOCUS ON ENERGY/MSB ENERGY ASSOCIATES, MIDDLETON, WI
Provided business development services to Wisconsin renewable energy businesses.
2. MARK DAUGHERTY Page 2 of 5
PRESIDENT/CEO 2002-2003
VIRENT ENERGY SYSTEMS, MADISON, WI
Lead Virent during its formation. Negotiated licensing of Virent’s core liquid phase reforming technology from the
Wisconsin Alumni Research Foundation (WARF). Raised over $2.25 million in federal and state funding, set up
operations, and put a development team in place.
DCH TECHNOLOGY/ENABLE FUEL CELL, MIDDLETON, WI 1998-2002
VICE PRESIDENT & GENERAL MANAGER. (2001-2002); CHIEF SCIENTIST. (1998-2001) Managed the technical and
business activities of proton exchange membrane (PEM) fuel cell development company. Built and managed strategic
product development alliances with Eveready, UOP, and EPRI. Negotiated licensing and technology transfer agreements
with Los Alamos National Laboratory.
TECHNICAL STAFF MEMBER 1993-1997
LOS ALAMOS NATIONAL LABORATORY, LOS ALAMOS, NM
Principal Investigator on numerous research projects including Cooperative Research and Development Agreements with
industry to develop high temperature superconductivity applications.
MANAGER, R&D COOPERATIVE PROGRAMS 1988-1993
SUPERCONDUCTIVITY, INC. (NOW AMERICAN SUPERCONDUCTOR), MIDDLETON, WISCONSIN
Managed research and development programs. Coordinated Superconductivitiy, Inc.'s (SI's) research programs with
Argonne and Oak Ridge National Laboratories. Analyzed, designed and tested superconducting and cryogenic
components for SI's superconducting energy storage devices. Principal Investigator on a contract to examine the use of
superconducting magnetic energy storage for critical Air Force power quality applications.
PREVIOUS PROFESSIONAL EXPERIENCE
Natural Resources Defense Council, San Francisco, CA • US Department of Energy, Washington, DC Applied
Superconductivity Center, Madison, WI • Astronautics Corporation of America, Milwaukee & Madison, WI • The
Whale Center, Oakland, CA • US Department of Commerce, Arlington, VA
Solar Energy Laboratory, Madison, WI
ACTIVITIES
Volunteer Director of Business Development, Bridge to Cures. Board Member: New Education World Institute. Past
Board Member: Solrayo, Inc., Virent Energy Systems, Community Car, Enable Fuel Cell, Enable IPC, and RENEW
Wisconsin. • Los Alamos National Laboratory award for Excellence in Industrial Partnerships. • Chair of Session on
Applications of Superconductivity, Cryogenic Engineering Conference. • R & D 100 Award with Superconductivity, Inc.
• Member of the American Society of Mechanical Engineers. • Associate Editor, Ecology Law Quarterly. • Attended
M.Div. program at Chicago Theological Seminary. • Volunteer Renewable Energy Coordinator, Faith in Place,
Chicago, IL. • Partner, Great Lakes Biofuels.
• Over 20 technical publications.
3. MARK DAUGHERTY Page 3 of 5
REFEREED PUBLICATIONS
1. “Adiabatic Stacks and Systems,” Mahlon Wilson, Christine Zawodzinski and Mark Daugherty, AIChE Spring
National Meeting, New Orleans, Louisiana, March 10-14, 2002, Paper 86c.
2. “High Gradient Magnetic Separation Using a High Temperature Superconducting Magnet,” J.A. Selvaggi, D.L.
Cottrell, T.H. Falconer, M.A. Daugherty, D.E. Daney, D.D. Hill and F.C. Prenger, Applied Superconductivity, Vol. 6,
No. 1., pp. 31-36, 1998.
3. "Ramp Rate Testing of an HTS High Gradient Magnetic Separation Magnet," M. Daugherty, E. Roth, D.Daney, D.
Hill and C. Prenger. Presented at the 1997 Cryogenic Engineering Conference, Portland, Oregon; July, 1997.
4. "HTS High Gradient Magnetic Separation System," M.A. Daugherty et. al., IEEE Transactions on Applied
Superconductivity, Vol. 7, No. 2, Part I, 1997, pp. 650-653.
5. "A Comparison of Hydrogen Vehicle Storage Options Using the EPA Urban Driving Schedule," M.A. Daugherty,
F.C. Prenger, D.E. Daney, D.D. Hill and F.J. Edeskuty. Advances in Cryogenic Engineering, Vol. 41B, 1996, pp.
1049-1056.
6. "Assembly and Testing of a Composite Heat Pipe Thermal Intercept for HTS Current Leads," M.A. Daugherty, D.E.
Daney, F.C. Prenger, D.D. Hill, P.M. Williams and H.J. Boenig. Advances in Cryogenic Engineering, Vol. 41A,
1996, pp. 579-585.
7. "Hydrogen Vehicle Fueling Station," D.E. Daney, F.J. Edeskuty, M.A. Daugherty, F.C. Prenger and D.D. Hill.
Advances in Cryogenic Engineering, Vol. 41B, 1996, pp. 1041-1048.
8. "Nitrogen Heat Pipe for Cryocooler Thermal Shunt," F.C. Prenger, D.D. Hill, D.E. Daney, M.A. Daugherty, G.F.
Green and E.W. Roth. Advances in Cryogenic Engineering, Vol. 41A, 1996, pp. 147-154.
9. "Bi-2212/AG Tape Conductor and Coil Development," G.W. Albert, R. Zhou, E.M. Leung, K.V. Salazar, T.G.
Holesinger, M. Daugherty and J.O. Willis. Advances in Cryogenic Engineering, Vol. 41A, 1996, pp. 419-425.
10. "HTS Current Lead Using a Composite Heat Pipe," M.A. Daugherty, F.C. Prenger, D.D. Hill, D.E. Daney and K.A.
Woloshun. IEEE Transactions on Applied Superconductivity, Vol. 5, No. 2, 1995, pp. 773-776.
11. "Anisotropic High Temperature Superconductors as Variable Resistors and Switches," H.J. Boenig,
M.A. Daugherty, S. Fleshler, M.P. Maley, F.M. Mueller, F.C. Prenger and J.Y. Coulter. IEEE Transactions on
Applied Superconductivity, Vol. 5, No. 2, 1995, pp. 1040-1043.
12. "HTS Microwave Cavity with Temperature-Independent Frequencies," F.M. Mueller, D. Reagor, C.J. Maggiore, D.
McMurry, D.W. Cooke, T.C. Pluym, R.E. Muenchausen, P.N. Arndt, M.A. Daugherty, B.F. Roberts, R.B. Cass and
R. Loh. IEEE Transactions on Applied Superconductivity, Vol. 5, No. 2, 1995, pp. 1983-1986.
4. MARK DAUGHERTY Page 4 of 5
13. "High Temperature Superconducting Current Leads for Micro-SMES Application," R.C. Niemann, Y.S. Cha, J.R.
Hull, W.E. Buckles, M.A. Daugherty and B.R. Weber. IEEE Transactions on Magnetics, Vol. 30, No. 4, 1994, pp.
2589-2592.
14. "Design and Operation of a Robust Cryostat for Commercial Superconducting Energy Storage Systems," M.A.
Daugherty, W.E. Buckles and R.C. Niemann. Advances in Cryogenic Engineering, Vol. 39A, 1994, pp. 855-862.
15. "Performance Evaluations of Demountable Electrical Connections," R.C. Niemann, Y.S. Cha, J.R. Hull, W.E. Buckles
and M.A. Daugherty. Advances in Cryogenic Engineering, Vol. 39B, 1994, pp. 1153-1160.
16. "SSD Operating Experience," M.A. Daugherty, W.E. Buckles, G.A. Knudtson, D.L. Mann and P.W. Stephenson.
IEEE Transactions on Applied Superconductivity, Vol. 3, No. 1, Part II, 1993, pp. 204-206.
17. "The SSD: A Commercial Application of Magnetic Energy Storage," W.E. Buckles, M.A. Daugherty, B.R. Weber
and E.L. Kostecki. IEEE Transactions on Applied Superconductivity, Vol. 3, No. 1, Part II, 1993, pp. 328-331.
18. "Characterization of Flow in Sub-Scale Cable-in-Conduit Conductors," M.A. Daugherty, R. Maekawa and S.W. Van
Sciver. IEEE Transactions on Applied Superconductivity, Vol. 3, No. 1, Part II, 1993, pp. 500-502.
19. "Distribution of Diameters Analysis of Pressure Drop in Internally Cooled Cabled Superconductors,"
M.A. Daugherty and S.W. Van Sciver. Advances in Cryogenic Engineering, Vol. 37A, 1991, pp. 163-169. (Paper
won a student award at the 1991 CEC/ICMC in Huntsville, Alabama.)
20. "Pressure Drop Measurements on Cable-in-Conduit Conductors of Various Geometries," M.A. Daugherty and S.W.
Van Sciver. IEEE Transactions on Magnetics, Vol. 27, No. 2, 1991, pp. 2108-2111.
21. "Design and Performance of Forced-Flow He II Heat Exchangers," A. Shajii, Y. Huang, M. Daugherty, R.J. Witt and
S.W. Van Sciver. Advances in Cryogenic Engineering, Vol. 35A, 1990, pp. 165-172.
22. "Pressure Drop Measurements on Supercritical Helium Cooled Cable-in-Conduit Conductors," M.A. Daugherty, Y.
Huang and S.W. Van Sciver. IEEE Transactions on Magnetics, Vol. 25, No. 2, 1989, pp. 1512-1515.
OTHER PUBLICATIONS
1. “Portable Fuel Cell Power Sources for Various Applications,” Mark Daugherty et. Al., The Fuel Cell Home
Proceedings, Edited by Marcus Nurdin, Lucerne, Switzerland, 2-6 July, 2001, pp. 283-292.
2. “Portable Fuel Cells for Consumer Products,” M. Daugherty, S. Ibrahim, T. Learn, K. Kenyon, D. Haberman, S.
Hoffman and C. Salter, Fuel Cell 2000 Proceedings, Edited by Leo Blomen, Lucerne, Switzerland, 10-14 July, 2000,
pp. 45-51.
5. MARK DAUGHERTY Page 5 of 5
3. “Modular PEM Fuel Cell System for Outdoor Applications,” M. Daugherty, D. Haberman, N. Stetson, S. Ibrahim, O.
Lokken, D. Dunn, M. Cherniack, and C. Salter, Portable Fuel Cells Proceedings, Edited by Felix Buchi, Lucerne,
Switzerland, 21-24 June, 1999, pp. 69-78.
4. Handbook of Cyrogenic Engineering, Chapter 10 - Safety, F.J. Edeskuty and M.A. Daugherty, Edited by J.G.
Weisend, Taylor and Francis, Washington, D.C., 1998.
5. “Electrolytic Production of Hydrogen Utilizing Photovoltaic Cells,” Mark A. Daugherty, 11th Annual National
Educators Workshop, Los Alamos, NM, 1996.
6. "Application of High-Temperature Superconductors to High-Gradient Magnetic Separation,” M. Daugherty, C.
Prenger, D. Hill, D. Daney, L. Worl, A. Schake, and D. Padilla. 29th Intersociety Energy Conversion Engineering
Conference, Monterey, CA, August 7-11, 1994, pp. 1502-1507.
7. "Engineering Design of a High-Temperature Superconducting Current Lead," R.C. Niemann, Y.S Cha, J.R. Hull,
M.A. Daugherty and W.E. Buckles. Presented at the Fifth Annual International Industrial Symposium on the Super
Collider (IISSC), San Francisco, CA, May 6-8, 1993, paper VII-24.
8. "Use of Sperconducting Magnetic Energy Storage to Improve Power Quality for Critical Air Force Applications," M.
Daugherty, C. DeWinkel, W. Buckles, J. Emerick and R. Lundy. Final Report, Air Force SBIR Contract FO8635-92-
C-0070, February 1993.
9. "Comparison of Actual and Simulated Performance of the Arlington House System," M.A. Daugherty, J.W. Mitchell
and J.A. Duffie. 1980 Systems Simulation and Economic Analysis Conference, San Diego, CA, January 23-25, 1980,
p. 27.