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327   $aIntroduction -- Theoretical Background -- Preliminary Work: From Liquid to Solid Foams -- Monodispers and Polydisperse Chitosan Foams via Microfluidics,. Monodisperse Highly Ordered Nanocomposite Foams -- General Conclusion and Outlook -- Experimental.
330   $aThis book discusses the synthesis of chitosan-based solid foams using foam templating. Solid foams with pore sizes between a few micrometres and a few millimetres are widely used in a range of established and emerging applications, including filtration, catalysis, sound and thermal insulation, human protection, and tissue engineering. They are lightweight with large surface-to-volume ratios, and have excellent mechanical, acoustic, and thermal properties. However, most foaming processes are extremely complex, and there remains a lack of sound scientific understanding of?and therefore control over?the parameters that determine the properties of the material. One route towards tailor-made solid foams is liquid foam templating, where the liquid foam is generated first (with the desired structure) before being solidified into a solid foam with the desired structure. This book describes how liquid foam templating can be used to synthesise monodisperse solid foams as well as solid foams with a tuneable polydispersity.
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200 10$aSmall Wind and Hydrokinetic Turbines
205   $a1st ed.
210  1$aStevenage :$cInstitution of Engineering & Technology,$d2022.
210  4$d©2021.
215   $a1 online resource (520 pages)
225 1 $aEnergy Engineering 
311 08$a1-83953-071-5 
320   $aIncludes bibliographical references and index.
327   $aIntro -- Contents -- About the editors -- Introduction -- 1. Wind resource assessment for small wind turbines | Takaaki Kono and Jonathan Whale -- 1.1 General life cycle of wind energy project -- 1.2 General wind resource assessment process -- 1.3 Specific features of WRA for SWTs -- References -- 2. Resource assessment for hydrokinetic turbines | Muluken Temesgen Tigabu, David Wood and Bimrew Tamrat Admasu -- 2.1 Introduction -- 2.2 The context of hydrokinetic turbines -- 2.3 Power density estimation for HKTs -- 2.4 Resource prediction models -- 2.5 Conclusion -- References -- 3. Small hydrokinetic turbines | Brian Kirke -- 3.1 Introduction -- 3.2 The need/potential market -- 3.3 Potential problems with HKTs -- 3.4 Differences between hydrokinetic and wind energy -- 3.5 Turbine types -- 3.6 Ducts and diffusers -- 3.7 Oscillating foils -- 3.8 Vortex shedding -- 3.9 Tidal sails -- 3.10 Floating debris clogging turbines and damage from floating logs -- 3.11 Blockage and water surface gradient -- 3.12 Tidal and river level variation -- 3.13 Fast-flowing rivers -- 3.14 Canals -- 3.15 Economics -- 3.16 Actual progress to date -- 3.17 Future prospects -- References -- 4. Computational methods for vertical axis wind turbines | Anders Goude and Victor Mendoza -- 4.1 Introduction -- 4.2 VAWT theory -- 4.3 General simulation considerations -- 4.4 Streamtube models -- 4.5 Actuator cylinder models -- 4.6 Actuator line models -- 4.7 Vortex model -- 4.8 CFD with resolved boundary layers -- 4.9 Model validations -- 4.10 Discussion and conclusions -- References -- 5. VAWT wind tunnel experiments | Lorenzo Battisti -- 5.1 Wind tunnel facility -- 5.2 Scaling limits in wind tunnels -- References -- 6. The aerodynamics of water pumping windmills | Itoje H. John and David Wood -- 6.1 Windmill blades -- 6.2 Windmills compared to wind turbines.
327   $a6.3 Windmill aerodynamics -- 6.4 Starting behavior of windmills -- References -- 7. Blade element analysis and design of horizontal-axis turbines | Jerson R.P. Vaz and David Wood -- 7.1 Introduction -- 7.2 Horizontal-axis wind and hydrokinetic turbines -- 7.3 Cavitation on hydrokinetic turbines -- 7.4 Blade element momentum theory -- 7.5 Angular and axial momentum theory with a diffuser -- 7.6 Blade element theory for diffuser-augmented turbines -- 7.7 The accuracy of blade element momentum theory -- 7.8 Design using blade element momentum theory -- 7.9 Conclusions -- References -- 8. Vortex-induced vibration-based energy harvesting | Arindam Banerjee and Kai He -- 8.1 Physics of flow around cylinders -- 8.2 Governing equations -- 8.3 Parameters that affect VIV -- 8.4 Role of PTC in augmenting VIV in TrSL2 and TrSL3 regimes-transition from VIV to galloping instability -- 8.5 Devices for marine and wind energy applications -- 8.6 Future scope -- References -- 9. Field testing of a 5-kW horizontal-axis wind turbine | David Robert Bradney, Samuel Petersen Evans, Mariana Salles Pereira da Costa and Philip Douglas Clausen -- 9.1 Introduction -- 9.2 Description of the 5-kW horizontal-axis wind turbine -- 9.3 Turbine instrumentation and data acquisition systems -- 9.4 Site conditions and turbine performance -- 9.5 Tailfin size and turbine's dynamic response -- 9.6 Blade response in unsteady wind flow -- 9.7 Turbine starting performance -- 9.8 Conclusions -- References -- 10. Aeroelastic modelling of a 5-kW horizontal axis wind turbine | Samuel Petersen Evans and Philip Douglas Clausen -- 10.1 Introduction -- 10.2 Methodology -- 10.3 Results and discussion -- 10.4 Conclusions and future work -- Appendix -- References -- 11. The very low head turbine-a new hydro approach | Paul G. Kemp -- 11.1 VLH conceptualization -- 11.2 VLH technology.
327   $a11.3 Cold climate adaptation -- 11.4 VLH hydraulic studies -- 11.5 Canadian VLH fish studies -- 11.6 Case study: Wasdell Falls VLH Hydro Plant -- 11.7 The art of engineering design -- 11.8 VLH summary -- References -- 12. Development and experience with a vertical-axis hydrokinetic power generation system | Clayton Bear and Michael Bear -- 12.1 Introduction -- 12.2 History -- 12.3 Technology -- 12.4 Applications -- 12.5 System configuration -- 12.6 Development program -- 12.7 Initial prototypes -- 12.8 First-generation designs -- 12.9 Second-generation designs -- 12.10 Tidal deployments -- 12.11 Summary -- 12.12 Case studies -- References -- 13. SWTs for arctic applications: powering autonomous rovers | Morten Hedelykke Dietz Fuglsang and Robert Flemming Mikkelsen -- 13.1 Introduction -- 13.2 Location and local conditions -- 13.3 Turbine functional requirements -- 13.4 Selection of a turbine with prior arctic references -- 13.5 Description of the field test -- 13.6 Results from the field test -- 13.7 Conclusions -- References -- 14. Commercialisation of a small diffuser-augmented wind turbine for microgrids | Samuel Petersen Evans, James B. Bradley and Joss E. Kesby -- 14.1 Introduction -- 14.2 Aims -- 14.3 Methodology -- 14.4 Conclusions -- 14.5 Recommendations and future work -- Conflict of interest -- References -- 15. A tide like no other: harnessing the power of the Bay of Fundy | Tony Wright -- 15.1 Introduction -- 15.2 FORCE as host -- 15.3 FORCE as steward -- 15.4 Turbines in the water -- 15.5 Operations and infrastructure -- 15.6 Research and monitoring -- 15.7 Social license -- 15.8 Visitor centre -- 15.9 Emission displacement -- 15.10 Final thoughts -- References -- 16. Sustainable materials for small blades | Igor dos Santos Gomes, Roberto Tetsuo Fujiyama, Jerson Rogerio Pinheiro Vaz and David Wood -- 16.1 Introduction.
327   $a16.2 Small hydrokinetic and wind turbine blades -- 16.3 Sustainable reinforcement materials for small hydrokinetic and wind turbine blades -- 16.4 Final considerations -- References -- Index.
330   $aSmall Wind and Hydrokinetic Turbines is a valuable summary for researchers involved with small wind turbines and SHKT development and deployment, both in academia and industry, for research on powering remote areas, as well as for advanced students and manufacturers of turbines.
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200 10$aBiocoating for Fertilizer Industry /$fby Husnul Azan Tajarudin, Charles Wai Chun Ng
205   $a1st ed. 2022.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2022.
215   $a1 online resource (78 pages)
225 1 $aSpringerBriefs in Applied Sciences and Technology,$x2191-5318
311 08$aPrint version: Tajarudin, Husnul Azan Biocoating for Fertilizer Industry Singapore : Springer,c2022 9789811960345 
320   $aIncludes bibliographical references.
327   $aChapter 1. Introduction to Bio-coating -- Chapter 2. Bio-coating from Composite Materials -- Chapter 3. Bacteria in Bio-coating -- Chapter 4. Evaluation of Bio-coating -- Chapter 5. Techniques of Bio-coating Evaluation -- Chapter 6. Conclusion.-References.
330   $aThis book presents the advancement of coating materials technology especially in agriculture, particularly for fertilizers. Fertilizers are a critical component in meeting rising demands and ensuring global food security. A new generation of fertilizers made by coating granules with biopolymers address these issues. Coating in agriculture is an important area in research for a more sustainable future. Many examples and instances from existing research and related research gaps are discussed. It includes applications of composites as fertilizer?s coating, advantages and disadvantages of fertilizer coating from composites, applications of bacteria in composite, applications of bacteria in fertilizer industry as well as the common techniques of coating fertilizers with drying process.
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