Zeolite Based Catalysts for Microwave Induced Transformations of Hydrocarbons
House, E.R.; Zholobenko, V.L.
German National Library of Science and Technology (GetInfo) (German)
TimeC: A Time Constraint Language for ILP Processor Compilation
Pnueli, Amir; Palem, Krishna V.; Leung, Allen
Thyristor Based Thermoregulator for Technological Ovens
Tzanev, T.; Seymenliyski, K.; Rahnev, P.
The Impact of the Department of Energy Efficiency Standards on Microwave Ovens
THE USE OF WAVEGUIDE T-JUNCTIONS WITH ASYMMETRIC SHOULDERS IN ENERGY DISTRIBUTING SYSTEMS OF MULTICHANNEL MICROWAVE OVENS
Bogachkov, I. V.; IEEE
Survey of Microwave Ovens: A Modeling Approach on Radiation Leakage
Decat, G.; Wouters, G.; Kretzschmar, J.
Summaries of articles in this issue
Statistical Modelling of the Electric and Magnetic Field of Shielded and Unshielded Microwave Ovens
Decat, G.; Tichelen, P. V.; International Microwave Power Institute
Some considerations when using a microwave oven as a laboratory research tool
Diprose, M. F.
Simulation of Microwave, Conventional And Hybrid Ovens Using A New Thermal Modeling Technique
Haala, J.; Wiesbeck, W.
Sensitivity of low voltage consumer equipment to voltage sags
Hardi, Surya; Daut, I
Sample movement optimization for uniform heating in microwave heating ovens
Pedreno-Molina, J. L.; Monzo-Cabrera, J.; Catala-Civera, J. M.
SRP Meeting: Radio Wave Exposures - A Cause for Concern? (Preston, June 2002)
Review of induction cooking - a health hazards free tool to improve energy efficiency as compared to microwave oven
Sadhu, Pradip Kumar; Pal, Nitai; Bandyopadhyay, Atanu
Repeatability of Reheating in Domestic Microwave Ovens
Swain, M.; James, S. J.; International Union for Electroheat; Swedish National Committee
Radiation emission from microwave ovens
Radiation Leakage Of Before-Sale and Used Microwave Ovens
Thansandote, A.; Lecuyer, D. W.; Gajda, G. B.
Quantification of Heating Uniformity in Multi-Applicator Tunnel Ovens
Sundberg, M.; Risman, P.; Kildal, P.-S.
Qualification of Single-Service Food Packaging for Use in Microwave Ovens
Production of Highly Charged Heavy Ions by means of a Hybrid Source in Dc mode and in Afterglow Mode
Torrisi, L.; Shirkov, G. D.; Andò, L.
Presentation summaries - 25th Microwave Power Symposium, August 27 - 29, 1990, Sheraton Tech Center, Denver, Colorado
International Microwave Power Institute
Piezoelectric-Crystal-Resonator High-Frequency Gravitational Wave Generation and Synchro-Resonance Detection
Woods, R. Clive; Baker, Robert M. L.; Li, Fangyu
Physics of the microwave oven
Performance measurement and analysis of low data rate wireless communication under interference sources in buildings
Guo, Wenqi; Healy, William M.; Zhou, Mengchu
Oversized Transmission Lines for Gyrotron-Based Technological Ovens and Plasma-Chemical Reactors
Bogdashov, A.; Denisov, G.; Kalynova, G.
Overcoming Obstacles: Microwave Ovens and Vending Machines Combine Efficiency and Speed
Off-line ion source terminal for ISAC at TRIUMF
Jayamanna, K.; Ames, F.; Cojocaru, G.
Novel Method for the Characterisation of Microwave Ovens
George, R. M.; Richardson, P. S.; International Union for Electroheat; Swedish National Committee
Non-uniform Temperature Distribution During Microwave Heating of Food Materials—A Review
Jayas, D.; Vadivambal, R.
More experiments with microwave ovens
Michael Vollmer; Klaus-Peter Möllmann; Detlef Karstädt
Modelling of Modes and Perspectives on Multiple-Feeds in Microwave Ovens
Chow Ting Chan, T. V.; Reader, H. C.
Modelling of Incident, Reflected and Absorbed Power in Microwave Ovens Using the FDTD Technique
Ma, L.; International Union for Electroheat; Swedish National Committee
MoN-P-36 Design of an automatic impedance matching system for industrial continuous microwave ovens. Part II: Experimental Results
Parro, V. C.; Pait, F. M.; Brazilian Microwave and Optoelectronics Society
MoN-P-35 Design of an automatic impedance matching system for industrial continuous microwave ovens. Part I: Modeling and off line tuning
Minimizing Radiation Leakage from Microwave Ovens
Microwave ovens and frozen foods make cents : papers given at a 1-day short course at the U.S. Army Natick Development Center, Natick, Massachusetts, October 23, 1975
Decareau, R. V.
Institution of Electrical Engineers
Microwave excitation of a diffusion-cooled CO2 laser
M Marz; W Oestreicher
Microwave cooking and processing : engineering fundamentals for the food scientist
Buffler, Charles R.
Microwave Ovens: Their Operation and Cooking Limitations
Jain, R. C.; Voss, W. A. G.
Microwave Ovens and the Future of the U.S. Vending Industry
Microwave Ovens From Domotechnica
Microwave : The cooking revolution
Webb, J. M.
Leakage of Domestic Microwave Ovens and Radiated Emission Problems
Lefeuvre, S.; Teissandier, N.; Talhaoui, T.
Labelling of Domestic Microwave Ovens in the United Kingdom
Investigation of physicochemical properties of breads baked in microwave and infrared-microwave combination ovens during storage
Sahin, Serpil; Turabi, Elif; Ozkoc, Semin
Influence of the magnetron operating frequency on the results of microwave heating
Soltysiak, Michal; Erle, Ulrich; Celuch, Malgorzata
Soltysiak, M.; Erle, U.; Celuch, M.
Influence of sample preparation on the determination of the elemental composition of fresh water sponges by inductively coupled plasma mass spectrometry
Pakhomova, N.; Semiturkina, N.; Kulikova, N.
Identifying ideas of attractive quality in the innovation process
Gustafsson, Anders; Löfgren, Martin; Witell, Lars
IMPROVEMENT OF OUTPUT PERFORMANCES OF MAGNETRONS FOR MICROWAVE OVENS
Roujentsev, I. V.; Volovenko, N. V.; Nikitenko, A. N.
High intensity challenge for electron cyclotron resonance ion sources (abstract) (plenary)
High Efficiency Magnetrons for Microwave Ovens
Yokoyama, R.; Kato, N.; Iseki, H.
Heating Efficiency of Domestic Microwave Ovens
James, C.; Robbertsen, J.; Swain, M.
Gravitational Wave Generation and Detection Using Acoustic Resonators and Coupled Resonance Chambers
Baker, Robert M. L.; Woods, R. Clive
Fuzzy control in Microwave Ovens - an Emerging Technology
Ewertz, L.-E.; International Union for Electroheat; Swedish National Committee
Future impact of microwave ovens on the food industry : these papers were given a 1 day short course in Waterloo, Ontario on May 27, 1975
McConnell, D. R.
Flavor in the Cysteine-Glucose Model System Prepared in Microwave and Conventional Ovens
Shibamoto, T.; Yeo, H.; Parliament, T. H.
Shibamoto, T.; Yeo, H.; American Chemical Society; Division of Agricultural and Food Chemistry
Finite-Difference Time-Domain Modelling of Domestic Microwave Ovens
Pothecary, N. M.; International Union for Electroheat; Swedish National Committee
Finite difference time domain analysis of industrial microwave ovens
Finite Difference Time Domain Analysis of Thermal Distribution of Microwave Industrial Ovens
Amara, S.; De Leo, R.; Moglie, F.
Factors Affecting the Power Output of Domestic Microwave Ovens
Evidence for the phenomenon of carburization-decarburization of tungsten carbide
P Bague; J P Morizot; G Desgardin
Evaluation of Dissipated Power in Microwave Domestic Ovens by FDTD Simulation
Bellanca, G.; Golfieri, G.; Bassi, P.
Energy Efficiency of Domestic Microwave Ovens
Decat, G.; International Union for Electroheat; Swedish National Committee
Electromagnetic radiation from microwave ovens
Zeyad O I Alhekail
Electromagnetic Interference and Electromagnetic Compatibility Test Technology
Lv, Feng; Zhao, Hua; Du, Wenxia
Electromagnetic Interference Control in Microwave Ovens
DeLeo, R.; Primiani, V. M.; University of Cambridge; Engineering Department; Electricity Utilisation Group
Electric and Magnetic Fields of Domestic Microwave Ovens Quantified Under Different Conditions
Decat, G.; Van Tichelen, P.
Efficiency Improvement Techniques for Microwave Ovens
Buffler, C. R.; McNutt, R.
Digest - Microwave Power Symposium 1981, June 9th - 12th, 1981, Royal York Hotel, Toronto, Ontario, Canada
International Microwave Power Institute
Development of a compact 2.45 GHz ECR ion source
Fiedler, S.; Winter, H. P.
Development Status of Magnetrons for Microwave Ovens
Yokoyama, R.; Yamada, A.
Determination of Unsatisfactory Temperature Distributions within Foods Heated In Microwave Ovens
James, S.; Swain, M.; University of Cambridge; Engineering Department; Electricity Utilisation Group
Designing Industrial Microwave Heating Systems for Safe Operation: Batch Ovens
Schiffmann, R. F.
Design, Construction, and Performance of the NRC CsVI Primary Cesium Clocks
A G Mungall; H Daams; J-S Boulanger
Design and performance of a versatile, cost-effective microwave electron cyclotron resonance plasma source for surface and thin film processing
Klein, Chr.; Bradley, Chr.; Wiegner, Th.
Construction of Waveguide Distributing Systems for Multichannel Microwave Ovens
Bogachkov, I. V.; IEEE, Russia; Joint MTT/ED Chapter; Novsibirsk State Technical University
Compliance of Before-Sale Microwave Ovens with the Canadian Radiation Emitting Devices Regulations
Thansandote, A.; Lecuyer, D.; Blais, A.
Compatibility Issues Between Microwave Ovens and LAN Operations In the ISM Bands
Characterization of Household Microwave Ovens by Their Efficiency and Quality Factor
Persch, C.; Schubert, H.; International Microwave Power Institute
Characterisation of Household Microwave Ovens by theft Efficiency and Quality Factor
Persch, C.; Schubert, H.; University of Cambridge; Engineering Department; Electricity Utilisation Group
Characterisation of Domestic Microwave Ovens for Reheating Using Small Water Loads
Burns Associated with the Use of Microwave Ovens
Bluetooth-enabled Microwave Ovens for EMI Compatibility
Neelakanta, P. S.; Sivaraks, J.; Thammakoranonta, C.
Analysis and Design of Industrial Microwave Ovens Using the Finite Difference Time Domain Method
Sundberg, M.; Risman, P. O.; Kildal, P.-S.
An investigation into the vector ellipticity of extremely low frequency magnetic fields from appliances in UK homesThis work is supported by the charity CHILDREN with LEUKAEMIA, registered charity number 298405.
Elizabeth A Ainsbury; Emma Conein; Denis L Henshaw
An introduction to the industrial applications of microcontrollers
Xavier F Carelse
An experimental study of interference impacts on ZigBee-based wireless communication inside buildings
Wenqi Guo,; Healy, William M; Mengchu Zhou,
A tunable microwave plasma source for space plasma simulation experiments
Duncan, Dwight; Baumback, Mark M.; Siefring, Carl L.
A realistic model of co-located interference for wireless network packet simulation
SeonYeong Han,; Abu-Ghazaleh, N B
A new, radial B-field magnetron for use in microwave ovens
R V Harrowell
A new method for analyzing multimode-microwave heating ovens with mode stirrers
Plaza-Gonzalez, P.; Monzo-Cabrera, J.; Catala-Civera, J. M.
A fundamental study of microwave liquid heater
Kawasaki, S; Daito, Y; Kawai, T
A Hybrid Mode Applicator for Industrial Tunnel Ovens
Risman, P. O.; Sundberg, M.; International Microwave Power Institute
A Combined Electromagnetic and Heat Transfer Model for Heating of Foods in Microwave Combination Ovens
Wappling-Raaholt, B.; Scheerlinck, N.; Galt, S.
50 Years Later: How Microwave Ovens Are Still "Changing the Way America Cooks."
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