Kees de Blok scite author profile

Kees de Blok

7Publications

173Citation Statements Received

278Citation Statements Given

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Low operating temperature integral thermo acoustic devices for solar cooling and waste heat recovery

Blok¹

2008

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Utilizing low temperature differences from solar vacuum tube collectors or waste heat in the range 70-200 °C seems to be the most promising field of applications for thermo acoustic systems. At these reduced temperatures overall system performance is increasingly affected by the ratio between amplified (useful) power and acoustic power in the resonance circuitry. Well known is that this ratio can be improved by deploying multiple regenerator units (hex-reg-hex). However, in commonly used torus or coaxial bypass configurations the correct timing (real and high acoustic impedance) is hardly to realize inside more than two regenerator units (soft spot). Acoustic losses in the standing wave resonator together with a high regenerator impedance account for another fundamental limitation because of the relatively low transferred and loop power at a given pressure amplitude. Therefore a novel acoustic geometry will be presented in which a near real impedance can be maintained in even more than two regenerator units and in which acoustic feedback is performed by a near traveling wave. This approach improves the overall performance of low operating temperature thermo acoustic systems.

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Novel 4-Stage Traveling Wave Thermoacoustic Power Generator

Blok¹

2010

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Utilizing low temperature differences from solar vacuum tube collectors or waste heat in the range 70–200 °C seems to be the most promising and commercial interesting field of applications for thermoacoustic systems. Recently a novel 4-stage “self matching” traveling wave engine is developed and tested. Beside the low acoustic loss and compactness, due to traveling wave feedback, all components per stage are identical which is beneficial from (mass) production point of view. Based on this concept a 100 kWT thermoacoustic power (TAP) generator is under construction. This project is carried out in the framework of phase two of the Dutch SBIR program. The 100 kWT TAP will be installed at a paper manufacturing plant in the Netherlands for converting part of the flue gas at 150°C from the paper drying process into electricity. Emphasis in this project is on production and cost aspects lowering the investment per kWe to a level competitive to ORC’s. After successful completion of this pilot, commercialization and delivery of 100kW to 1 MW thermoacoustic power generators for industrial waste heat recovery and as add-on for CHP systems is planned to begin in 2012. The same concept of the 4-stage traveling wave engine is also implemented in an atmospheric pressure operated thermoacoustic cooking device for developing countries which generate beside hot water up to 50 W electricity. Details, ongoing work and experimental results of these projects will be presented.

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Review on the conversion of thermoacoustic power into electricity

Timmer

Blok²,

Meer

2018

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Thermoacoustic engines convert heat energy into high amplitude acoustic waves and subsequently into electric power. This article provides a review of the four main methods to convert the (thermo)acoustic power into electricity. First, loudspeakers and linear alternators are discussed in a section on electromagnetic devices. This is followed by sections on piezoelectric transducers, magnetohydrodynamic generators, and bidirectional turbines. Each segment provides a literature review of the given technology for the field of thermoacoustics, focusing on possible configurations, operating characteristics, output performance, and analytical and numerical methods to study the devices. This information is used as an input to discuss the performance and feasibility of each method, and to identify challenges that should be overcome for a more successful implementation in thermoacoustic engines. The work is concluded by a comparison of the four technologies, concentrating on the possible areas of application, the conversion efficiency, maximum electrical power output and more generally the suggested focus for future work in the field.

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Space thermoacoustic radio-isotopic power system: SpaceTRIPS

Alemany¹,

François²,

Blok³

et al. 2015

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The VALTA project: Full scale conversion of CHP engine flue gas heat into electricity

Francois¹,

Blok²,

Bouakhao³

et al. 2015

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Implementing a bidirectional impulse turbine into a thermoacoustic refrigerator

Timmer

Blok²,

Meer

2020

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A thermoacoustic model is used to efficiently implement a bidirectional impulse turbine into a thermoacoustic refrigerator. Experiments are done for several gas types and mean pressures to identify its influence on the turbine efficiency. A scaling is investigated in an attempt to provide a unique function of the turbine efficiency for all operating conditions. Furthermore, the ratio of acoustic power absorbed by the turbine over to the total amount of available power is examined for varying conditions. Finally, the results are used to present a case study in which the turbine is used to drive the fluid pumps of the device. The remaining acoustic power is used for cooling, thus providing an off-grid thermoacoustic refrigerator that works purely with low-grade heat as an input.

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Proceedings of the 3rd International Workshop on Thermoacoustics

Meer¹,

Blanc‐Benon²,

Blok³

et al. 2015

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Thermoacoustic refrigeration systems: recent developments TS02 Paweł Owczarek Details and experimental results of a stand-alone container cooled by a solar driven multi-stage traveling wave thermoacoustic system TS04 Chris Lawn Optimization of the loop in a travelling-wave thermo-acoustic engine TS05 Maurice-Xavier Francois The VALTA project: full scale conversion of CHP engine flue gas heat into electricity 12:20 13:20 Lunch Grand café 13:20 14:40 Session 2a Erlenmeyer AE05 Douglas Wilcox Development of a compact thermoacoustic-Stirling electric generator AE02 Jeffrey Lin High-fidelity simulations of a standing-wave thermoacousticpiezoelectric engine AE04 Bakhtier Farouk Signal conditioning of carbon nanotube loudspeaker AE01 Ken Kaneuchi Evaluation of bi-directional turbines using the two-sensor method 14:40 14:50 Coffee The Gallery 14:50 16:10 Session 3a Erlenmeyer AE03 Johan Brussen Modeling and controlling the generator of a thermoacoustic Stirling engine AE06 Maurice-Xavier Francois Space thermoacoustic radio-isotopic power system: SpaceTRIPS TS15 Hiroaki Hyodo Dynamics of forced synchronization in thermoacoustic system 16:10 16:20 Coffee The Gallery 16:20 17:20 Session 4a Erlenmeyer TC01 Marialuisa Napolitano The role of stack non acoustic parameters on thermodynamic performance of standing wave devices TC02 Esmatullah Maiwand Sharify CFD study of oscillatory flow around parallel plates in a traveling-wave thermoacoustic engine

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Kees de Blok

Low operating temperature integral thermo acoustic devices for solar cooling and waste heat recovery

Novel 4-Stage Traveling Wave Thermoacoustic Power Generator

Review on the conversion of thermoacoustic power into electricity

Space thermoacoustic radio-isotopic power system: SpaceTRIPS

The VALTA project: Full scale conversion of CHP engine flue gas heat into electricity

Implementing a bidirectional impulse turbine into a thermoacoustic refrigerator

Proceedings of the 3rd International Workshop on Thermoacoustics

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