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OverviewFunding Science: An Immense Challenge The real challenge in science should be hypothesis formation, experimental design and conducting the actual research under rigorous control and experimental condi of tions with the best available equipment/infrastructure. However, in many parts the world, the real challenge in science is trying to obtain some minimal amount of funding to initiate research. Every country in the world is challenged with an im mense number of interconnected environmental and health problems. Examples in clude biologically and chemically contaminated water and soil, air pollution, waste and sewage treatment, a multitude of infectious diseases in humans, animals and plants, global change, population growth, alternate energy sources, deforestation, floods, crop production and so on. Solutions to these national and international problems require training and re search to ensure the best available people and knowledge are available to man age and/or solve these problems. This can only be accomplished if the research community has the funding to conduct priority research and apply the knowledge globally. The challenge in science should be discovering the unknown and col laborative research/training of new scientists. Too often the challenge is how to conduct research without proper support. Many scientists are likely of the opinion that it is not their jobs/careers that is stressful, but the inability to do their research properly, that is stressful. Good research in a knowledge based economy requires proper funding. Full Product DetailsAuthor: Ranjeet S. Sokhi , John G. BartzisPublisher: Springer Imprint: Springer Edition: Softcover reprint of the original 1st ed. 2002 Dimensions: Width: 16.00cm , Height: 3.90cm , Length: 24.00cm Weight: 1.218kg ISBN: 9789401039352ISBN 10: 9401039356 Pages: 760 Publication Date: 21 October 2012 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand  We will order this item for you from a manufactured on demand supplier. Table of ContentsUrban Meteorology. Investigating the Surface Energy Balance in Urban Areas - Recent Advances and Future Needs; M. Piringer, et al. The Importance of Mixing Height in Characterising Pollution Levels from Aerosol Optical Thickness Derived by Satellite; A. Dandou, et al. Improvements in Air Quality Modelling by Using Surface Boundary Layer Parameters derived from Satellite Land Cover Data; N. Kitwiroon, et al. Potential and Shortcomings of NWP Models in Providing Meteorological Data for UAP Forecasting; A. Baklanov, et al. Urban Air Pollution - Emissions and Measurements. Trip-Based Explanatory Variables for Estimating Vehicle Fuel Consumption and Emission Rates; Y. Ding, H. Rakha. Results form Three Field Tracer Experiments on the Neighbourhood Scale in the City of Birmingham UK; R.E. Britter, et al. Three-Dimensional Ground-Based Measurements of Urban Air Quality to Evaluate Satellite Derived Interpretations for Urban Air Pollution; K. Schäfer, et al. Air Quality in Major Portuguese Urban Agglomerations; F. Ferreira, et al. Emission Models and Inventories of Local Greenhouse Gas Emissions Assessment: Experience in the East Midlands Region of the UK; P.H. Webber, P.D. Fleming. Measurements of Traffic-Induced Turbulence within a Street Canyon during the Nantes '99 Experiment; G. Vachon, et al. Adapting the Speciation of the VOCs Emission Inventory in the Greater Athens Area; E. Bossiolo, et al. Risk Analysis of Volatile Organic Compounds through Daily Life Cycle in the Industrial City in Korea; B-K Lee, J. Cho. Aerosol. The Relative Influences of Primary and Secondary Particulates to Urban Air Quality in the United Kingdom; T. Chatterton, et al. The Spatial and Temporal Variation of Measured Urban PM10 and PM25 in the Helsinki Metropolitan Area;M.A. Pohjola, et al.Diurnal Profile of Particle-bound Polycyclic Aromatic Hydrocarbon (pPAH) Concentration in Urban Environment in Tokyo Metropolitan Area; T. Chetwittayachan, et al. Formation and Transport of Atmospheric Aerosol over Athens, Greece; I. Colbeck, et al. The Characterisation of Settled Dust by Scanning Electron Microscopy and Energy Dispersive X-ray Analysis; V. Shilton, et al. Source Apportionment in the Town of La Spezia (Italy) by Continuous Aerosol Sampling and PIXE Analysis; S. Nava, et al. Roadside Air Quality. Roadway-2: A Model for Pollutant Dispersion near Highways; K.S. Rao. Three-Dimensional Numerical Simulation of Air Pollutant Dispersion in Street Canyons; J.M. Crowther, A.G.A.A. Hassan. Analysis of the St Petersburg Traffic Data Using the OSPM Model; A. Ziv, et al. Examination of Traffic Pollution Distribution in a Street Canyon Using the Nantes'99 Experimental Data and Comparison with Model Results; R. Berkowicz, et al. Studies on Pollutant Dispersion from Moving Vehicles; A.G. Venetsanos, et al. A New Concept from Air Quality Modelling in Street Canyons; C. Mensink, et al. Thermal Effects on the Airflow in a Street Canyon &endash; Nantes '99 Experimental Results and Model Simulations; P. Louka, et al. Influence of Geometry on the Mean Flow within Urban Street Canyons &endash; A Comparison of Wind Tunnel Experiments and Numerical Simulations; A Kovar-Panskus, et al. Spatial Variability and Source-Receptor Relations at a Street Intersection; A. Robins, E. Savory. Application of Dispersion Modelling for Analysis of Particle Pollution Sources in a Street Canyon; O. Le Bihan, et al. Modelling of Flow and Pollution Dispersion in Two Dimensional Urban Street Canyon; D. Vlachogiannis, et al. Urban Air Pollution Modelling.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |
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