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Roads --- Harbors --- Semarang (Indonesia)

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While much scholarship has been devoted to the interplay between language, identity and social relationships, we know less about how this plays out interactionally in diverse transient settings. Based on research in Indonesia, this book examines how talk plays an important role in mediating social relations in two urban spaces where linguistic and cultural diversity is the norm and where distinctions between newcomers and old timers changes regularly. How do people who do not share expectations about how they should behave build new expectations through participating in conversation? Starting from a view of language-society dynamics as enregisterment, Zane Goebel uses interactional sociolinguistics and the ethnography of communication to explore how language is used in this contact setting to build and present identities, expectations and social relations. It will be welcomed by researchers and students working in the fields of linguistic anthropology, sociolinguistics, the anthropology of migration and Asian studies.

Anthropological linguistics --- Communication and culture --- Ethnicity --- Language and culture --- Sociolinguistics --- Semarang (Indonesia) --- Ethnic relations. --- Social life and customs. --- #SBIB:309H518 --- #SBIB:39A8 --- Culture and language --- Culture --- Ethnic identity --- Group identity --- Cultural fusion --- Multiculturalism --- Cultural pluralism --- Culture and communication --- Anthropo-linguistics --- Ethnolinguistics --- Language and ethnicity --- Linguistic anthropology --- Linguistics and anthropology --- Anthropology --- Linguistics --- Language and languages --- Language and society --- Society and language --- Sociology of language --- Sociology --- Integrational linguistics (Oxford school) --- Verbale communicatie: sociologie, antropologie, sociolinguistiek --- Antropologie: linguïstiek, audiovisuele cultuur, antropologie van media en representatie --- Social aspects --- Sociological aspects --- Semarang, Indonesia (City) --- Kotamadya Semarang (Indonesia) --- Kotapradja Semarang (Indonesia) --- Kota Semarang (Indonesia) --- Pemerintah Kota Semarang (Indonesia) --- Goverment of Semarang (Indonesia) --- Semarang City Government (Indonesia) --- Arts and Humanities --- Language & Linguistics --- Government of Semarang (Indonesia)

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Urbanization worldwide is a pervasive phenomenon of our time, and sustainable urban development is one of the greatest challenges faced by the contemporary world. The subsurface plays a range of roles in such developments through the complex processes of urbanization, including building development, constructing roads, and providing water supplies, drainage, sanitation, and even solid waste disposal.Urban groundwater problems are usually predictable; however, they are not predicted early enough. During recent decades, progressive advances in the scientific understanding of urban hydrogeological processes and the groundwater regimes of a substantial number of cities have been documented. This extensive array of subsurface challenges that cities have to contend with lies at the core of the sustainability of the urban water cycle. This is threatened by the increasing scale and downward extent of urban subsurface construction, including utilities (cables, sewage, and drainage), transportation (tunnels, passages), and storage (cellars, parking lots, and thermal energy). The cumulative impact of this subsurface congestion on the surrounding geology, and especially on the groundwater system, has to be constantly studied and addressed.In this volume, key connections amongst urban hydrogeology activities are identified as being consistent with scientific results and good practices in their relationship to subsurface data and knowledge on subsurface systems. The volume supports a useful dialogue between the providers and consumers of urban groundwater data and knowledge, offering new perspectives on the existing research themes.

Technology: general issues --- Environmental science, engineering & technology --- hydrochemistry --- chalk aquifer --- 1,1,1-trichloroethane --- degradation --- sulphate --- backfill --- leaching test --- urban development --- developing cities --- groundwater policy --- integrated management --- groundwater --- urban hydrology --- drainage --- modeling --- sewer --- baseflow --- urban hydrogeology --- groundwater quality --- sewer system --- agriculture --- groundwater modeling --- urban --- resilience --- sustainability --- hazards --- subsurface --- water cycle --- land-use --- infrastructure --- planning --- catchment --- hydrogeology --- accidental wetland --- road salt --- headwater stream --- groundwater flow --- urban groundwater --- numerical modeling --- water budget --- regional land subsidence --- groundwater abstraction --- numerical simulation --- InSAR --- Semarang City --- cutoff walls --- plastic concrete --- cement-bentonite-water ratio --- infiltration of stormwater --- green infrastructure --- nature-based solutions --- bioretention --- hydrologic performance --- full-scale testing --- drought --- urban planning --- sustainable development --- n/a

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Urbanization worldwide is a pervasive phenomenon of our time, and sustainable urban development is one of the greatest challenges faced by the contemporary world. The subsurface plays a range of roles in such developments through the complex processes of urbanization, including building development, constructing roads, and providing water supplies, drainage, sanitation, and even solid waste disposal.Urban groundwater problems are usually predictable; however, they are not predicted early enough. During recent decades, progressive advances in the scientific understanding of urban hydrogeological processes and the groundwater regimes of a substantial number of cities have been documented. This extensive array of subsurface challenges that cities have to contend with lies at the core of the sustainability of the urban water cycle. This is threatened by the increasing scale and downward extent of urban subsurface construction, including utilities (cables, sewage, and drainage), transportation (tunnels, passages), and storage (cellars, parking lots, and thermal energy). The cumulative impact of this subsurface congestion on the surrounding geology, and especially on the groundwater system, has to be constantly studied and addressed.In this volume, key connections amongst urban hydrogeology activities are identified as being consistent with scientific results and good practices in their relationship to subsurface data and knowledge on subsurface systems. The volume supports a useful dialogue between the providers and consumers of urban groundwater data and knowledge, offering new perspectives on the existing research themes.

Technology: general issues --- Environmental science, engineering & technology --- hydrochemistry --- chalk aquifer --- 1,1,1-trichloroethane --- degradation --- sulphate --- backfill --- leaching test --- urban development --- developing cities --- groundwater policy --- integrated management --- groundwater --- urban hydrology --- drainage --- modeling --- sewer --- baseflow --- urban hydrogeology --- groundwater quality --- sewer system --- agriculture --- groundwater modeling --- urban --- resilience --- sustainability --- hazards --- subsurface --- water cycle --- land-use --- infrastructure --- planning --- catchment --- hydrogeology --- accidental wetland --- road salt --- headwater stream --- groundwater flow --- urban groundwater --- numerical modeling --- water budget --- regional land subsidence --- groundwater abstraction --- numerical simulation --- InSAR --- Semarang City --- cutoff walls --- plastic concrete --- cement-bentonite-water ratio --- infiltration of stormwater --- green infrastructure --- nature-based solutions --- bioretention --- hydrologic performance --- full-scale testing --- drought --- urban planning --- sustainable development

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The growing demand for new forms of energy has led to a significant increase in the use of biomass as a primary source of energy. Although in many situations, the use of biomass is clearly well studied, in other cases, it is a new world, where knowledge is absent regarding how to best value and recycle these forms of biomass, many of which are classified as waste as a result of production processes. Thermochemical conversion technologies could provide an alternative for the processing of these materials, allowing for a reuse value through the transformation of their properties. The purpose of this Special Issue is to contribute to the increase in knowledge in this area when new forms of biomass appear that are cheaper and more available, but also are potentially more problematic, namely in terms of the effects that can be associated with the use of these new products.This Special Issue is focused on the recycling and recovery of biomass materials. Several innovative and alternative concepts can be presented, and the topics of energy recovery, circular economy, life cycle assessment, and supply chain could play a major role. Models on various temporal and geographical scales to understand the conditions of technical as well as organizational change are welcome, as are new methods of modeling that can fulfil technical and physical boundary conditions and consider economic, environmental, and social aspects.

olive pomace --- thermochemical conversion --- energy recovery --- circular economy --- biomass waste --- feedstock --- waste cooking oil --- engine characteristics --- exhaust emissions --- specific energy consumption --- fuel consumption --- abattoir wastes --- biogas --- biofertilizer --- anaerobic digestion --- environmental pollution --- potassium carbonate --- cocoa pod husk --- biomass ash --- batik --- clean production --- natural --- organic materials --- Semarang City --- commercial crab species --- red king crab --- waste processing --- hepatopancreas --- proteases --- hyaluronidase --- flotation --- seawater --- collectors --- vegetable oil --- recycled vegetable oil --- waste lubricating oil --- characterization --- used oil management --- invasive forest species --- wood pellets --- sustainability --- value chain --- biodegradation --- bioplastics --- lignocellulosic fibers --- microbial polyesters --- energy recovery of agricultural waste --- biomass pellets --- ENplus® --- essential oil production --- agro-waste recycling --- mushroom cultivation --- closing the loop --- HPLC-MS analysis --- residue valorization --- hydrothermal liquefaction --- biorefinery --- macroalgae --- value-added products