03087nam 2200685z- 450 991037278490332120231214133559.03-03928-101-1(CKB)4100000010163777(oapen)https://directory.doabooks.org/handle/20.500.12854/55332(EXLCZ)99410000001016377720202102d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierOptimization of Biodiesel, Methanol and Methane Production and Air Quality ImprovementMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (136 p.)3-03928-100-3 Alternative and renewable energy sources already play a very decisive role in the development of human society, helping to fulfill increasing energy demands from both industrialized and underdeveloped countries, as well as economic needs, which must comply with a decarbonized economy, decreasing the energy impact on the global environment. Among these alternative energy sources, fuels such as biodiesel, methanol, and methane are good examples of how the previous design can be achieved, as these fuels can be obtained from renewable sources, used in applications such as transportation systems, electricity generation, fuel conversion, and even for electricity storage, with reduced impact on air emissions. This Special Issue includes papers on new and innovative technical developments or approaches, reviews, case studies, as well as assessment, papers from different disciplines, which are relevant to the optimization of biodiesel, methane/methanol production systems, simultaneously resulting in air quality improvement.electrolysisCaO catalystcalcium oxideethanolysissynthetic fuelseggshellphotobioreactorsynthesis gaslipidhydrotreated kerosenerenewable energyliquefied biomassionic liquid catalystmicroalgaemethanolysisß-carotenepower plant exhaust gasbiodieselbiomassheterogeneous catalysiseconomic analysisseafood inorganic wastessustainabilityFAMEmicroalgae culturesolid base heterogeneous catalysttransesterificationmicro- and nano-structured catalystsvegetable oilsacid mine drainageHY zeoliteanimal fatsnano-catalystPereira Gomes João Fernandoauth1301460BOOK9910372784903321Optimization of Biodiesel, Methanol and Methane Production and Air Quality Improvement3025875UNINA03687nam 22006854a 450 991078003180332120200520144314.01-280-20808-297866102080810-306-47327-510.1007/b117789(CKB)111056486609782(EBL)3035537(SSID)ssj0000272591(PQKBManifestationID)11205611(PQKBTitleCode)TC0000272591(PQKBWorkID)10304990(PQKB)11746846(DE-He213)978-0-306-47327-2(MiAaPQ)EBC3035537(MiAaPQ)EBC196872(Au-PeEL)EBL3035537(CaPaEBR)ebr10048280(CaONFJC)MIL20808(OCoLC)923695967(Au-PeEL)EBL196872(OCoLC)424383655(PPN)237937182(EXLCZ)9911105648660978219990901d2000 uy 0engur|n|---|||||txtccrWireless communication using dual antenna arrays[electronic resource] /by Da-shan Shiu ; [foreword by Joseph M. Kahn]1st ed. 2002.Boston Kluwer Academicc20001 online resource (144 p.)The Kluwer international series in engineering and computer science ;SECS 529Includes index.0-7923-8680-9 Background -- Spatial Fading Correlation and Its Effects on Channel Capacity -- Power-Allocation Strategies -- Layered Space-Time Codes: Analysis and Design Criteria -- Transmit Diversity -- Open Issues.At present, the expansion of tetherless communications is a technological trend surpassed perhaps only by the explosive growth of the Internet. Wireless systems are being deployed today mainly for telephony, satisfying the ind- trialized nations’ appetite for talk-on-the-go, and providing much-needed communications infrastructure in developing countries. The desire for wi- less access to the Internet is starting to add fuel to the growth of tetherless communications. Indeed, the synergy of wireless and Internet technologies will lead to a host of exciting new applications, some of which are not yet envisioned. Future-generation wireless systems will achieve capacities much higher than the systems of today by incorporating myriad improvements. These in- vations include transmission in higher-frequency bands, “smart antennas”, multi-user detection, new forward error-correction techniques, and advanced network resource-allocation techniques. The term “smart antenna” usually refers to the deployment of multiple antennas at the base-station site, coupled with special processing of the m- tiple received signals. Smart antennas can adaptively reject co-channel int- ference and mitigate multipath fading, and have been identified by many as a promising means to extend base-station coverage, increase system capacity and enhance quality of service.Kluwer international series in engineering and computer science ;SECS 529.Wireless communication systemsAntenna arraysRadioTransmitters and transmissionWireless communication systems.Antenna arrays.RadioTransmitters and transmission.621.384/135Shiu Da-Shan1531138MiAaPQMiAaPQMiAaPQBOOK9910780031803321Wireless communication using dual antenna arrays3776564UNINA