Sentences with phrase «environmental modelling processes»

«Ultimately, this can be further developed into a common platform for planning, visualisation and environmental modelling processes.»

The Foundation undertook a rigorous due diligence process to evaluate the viability of the Little Sun business model and determined that solar powered lamps can provide enormous environmental and social benefits.

Cubicworld specialises in the fields of environmental information processing and modelling, with an emphasis on geographic information systems (GIS) and remote sensing, these being core fields in the environmental sciences.

The Akensons» research style is now being overshadowed by more abstract kinds of studies, which hinge on remote sensing and computer modeling of ecological and environmental processes.

«We designed ASTM E3012 - 16 to let manufacturers virtually characterize their production processes as computer models, and then, using a standardized method, «plug and play» the environmental data for each process step to visualize impacts and identify areas for improving overall sustainability of the system,» Lyons said.

This is the conclusion of a report that reviews the results obtained from the implementation of the forest simulation model GOTILWA +, a tool to simulate forest growth processes under several environmental conditions and to optimize Mediterranean forests management strategies in the context of climate change.

We analyze and model the flux of terrestrial materials from land to sea — the origins, pathways, processes, and food web consequences — in the context of long - term environmental change.

Beyond that, Dr. Andersen has shown in unpublished work (presented at the 2014 Rejuvenation Biotechnology Conference8) that eliminating senescent astrocytes confers similar benefits to mice with a model of PD that more closely mimics the fundamental processes that drive Parkinson's in aging people not suffering from either environmental toxicity or rare, genetic causes of PD.

Mission The mission of PNNL's Aerosol Climate Initiative is to advance the current scientific understanding and parameterization of aerosol processes and properties to improve comprehensive climate modeling frameworks and to inform policy decisions related to global climate change and the environmental impacts of aerosols.

To contribute to an understanding of the underlying causes of these changes we compile various environmental records (and model - based interpretations of some of them) in order to calculate the direct effect of various processes on Earth's radiative budget and, thus, on global annual mean surface temperature over the last 800,000 years.

In cooperation with potentially affected stakeholders, Scientists from the University of Bremen have developed an ecosystem model that integrates the relevant environmental processes and examines ecological changes and their socio - economic implications.

J.P. van der Sluijs, Uncertainty in global change models, Invited lecture at the SENSE Summer School Understanding Global Environmental Change: Processes, Compartments and Interactions, Hulsthorst, The Netherlands, 18 - 24 May 2007.

The workshop will explore uses of observations, modeling, studies of climate and related environmental processes, and derived tools to inform decisionmaking.

Prognostic models of terrestrial carbon cycle and terrestrial ecosystem processes are central for any consideration of the effects of environmental change and analysis of mitigation strategies; moreover, these demands will become even more significant as countries begin to adopt carbon emission targets.

(v) Assessments of predictability using quantitative models of the Earth system to simulate global and regional environmental processes and trends.

According to Paulo Moutinho, from the Amazon Environmental Research Institute (Instituto de Pesquisa Ambiental da Amazí» nia, IPAM), an NGO also participating in the process, this construction model of Principles and Criteria, based on effective civil society participation, will surely be able to be adopted by other countries.

Her research focused on the human dimensions of environmental change including development of collaborative processes in natural resource decision - making, behavior change, valuation of ecosystem goods and services, and modeling of human - ecosystem interactions.

«We believe our work can help fill in some gaps in methane budgets and environmental processes in global ecosystem models.»

They can also involve modeling species observed environmental niches, or observed physiological processes.

In the context of models that include cloud processes, ranging from small - scale models of clouds and atmospheric chemistry to global weather and climate models, the unified theoretical foundations presented here provide the basis for incorporating cloud microphysical processes in these models in a manner that represent the process interactions and feedback processes over the relevant range of environmental and parametric conditions.

The mission of the Environmental Observations, Modeling and Forecasting Division is to increase understanding of interactive processes in the Earth's environment and the development of a more coherent picture of its sensitivities to natural and anthropogenic change.

Scientists from Norway's Nansen Environmental and Remote Sensing Center, attempting to better understand how this process works, plugged their data into an ocean circulation / climate change model to examine the system out until 2080.

There is a wide range in the estimated heat - trapping emissions and other environmental impacts from each biofuel over its life cycle (i.e., from farm to finished fuel to use in the vehicle), depending on the feedstock, production process, and model inputs and assumptions.

J.P. van der Sluijs, Uncertainty in global change models, Invited lecture at the SENSE Summer School Understanding Global Environmental Change: Processes, Compartments and Interactions, Hulsthorst, The Netherlands, 18 - 24 May 2007.

J.P. van der Sluijs, Uncertainty in global change models, Invited lecture at the SENSE Summer School Understanding Global Environmental Change: Processes, Compartments and Interactions, Hoeven, The Netherlands, 5 September 2009.

Tags for this Online Resume: Program and Project Management, Business Analysis / Process and Data Analyst, Software Quality Assurance (SQA),, Requirements Management, Configuration Management, Defect Management, Quality Systems Development and Quality Management, Business Process Vision and Policies, Organizational Development and Re-engineering, Business Systems Requirements Specification, Course Development and Technical Training, Process and Training Documentation and Technical Writing, Product Design and Qualifications (power and packaging), Component Engineering (analog and materials), European and Asia Pacific business experience, Data Base Development and SQA, Use Case Modeling, Requirements and Defect Management, Issue Management, Document Management, KPI Definition, Analysis and Business Process Improvement, Use Cases Development, Test and Training, Internal Audit Planning, Implementation and Management, Hardware and Software PLC Management, Software Development Life Cycle (SDLC), Product Safety, EMC, EMI Environmental Management, Manufacturing, Customer and Field Support, Standards and Regulatory: UL, CSA, IEC, ISO, VDE, BSI, KEMA, FCC, FDA, PTT, BABT, OSHA, NEC, Sarbanes - Oxley (SarbOx / SOX), COBIT, Standards Making Committees: ECMA TC12, CBEMA ESC2, TIA, Process Frameworks: ISO 9000:2000 and TL 9000 (cGMP / QS9000 equivalent), CMMI, ITIL, SWBoK, PMBoK, RUP, and Sarbanes - Oxley compliance, Mass Quality Award / Baldridge Evaluation / Implementation, ODI and Rummler - Brache Process Improvement Methods, Metrics and Tools: TQM, SPC, TL9000 and GR - 929 metrics implementations and Six Sigma tools and methodologies

Environmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and aEnvironmental Engineer — Duties & Responsibilities Trained environmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and aenvironmental engineer with experience in industrial and academic settings Oversee development and feasibility study of a new low level chlorine detection method by nanotechnology Direct identification and quantification of sulfate - reducing bacteria (SRB) and sulfur - oxidizing bacteria (SOB) by Real Time Polymerase Chain Reaction (RT - PCR) Lead research for «Control of distribution system water quality in a changing water quality environment» funded by Tampa Bay Water Authority, Water Research Foundation Responsible for analyzing biological parameters and interpreting data from distribution system samples Manage QA / QC and sampling protocol for all biological project samples Compose and organize the entire biological sections for final project reports Develop and verify empirical models relating biofilm density and HPC measurements to water quality Responsible for designing water, sewer, fire, and storm drainage systems for a 3 story building Composed an Operations & Maintenance Manual for drainage systems Drafted full - size CAD blue prints of drainage systems and other structures Proficient in water / waste water treatment, experimental design, and laboratory studies Provide research for a project studying the effects of ultra-filtration on oily waste water Create a full 40 MGD water treatment plant process and design for a fictional city in North China Oversee site and source water selection, water pump stations design, treatment plant planning and pipeline layout Drafted full - size CAD blue prints and composed an Operations & Maintenance Manual Experience with hydraulic modeling and waste water plant design Consistently recognized for excellence in team leadership, project management, and academic study

This process model has been considerably elaborated by more recent research, which showed that parental personal factors, environmental factors and child factors are mediated by social support in terms of their impact on parental emotional well - being, quality of parenting, and family functioning, and also child functioning, in terms of self - esteem, competence and resilience (Armstrong 2005).

The environmental model considers that our surroundings will shape our opinions and thought process.