Sentences with phrase «energy economic model»

Wind, ethanol and barley do not make money in the energy economic model.

ACC Accounting & Auditing, AFR Africa, AGE Economics of Ageing, AGR Agricultural Economics, ARA Arab World, BAN Banking, BEC Business Economics, CBA Central Banking, CBE Cognitive & Behavioural Economics, CDM Collective Decision - Making, CFN Corporate Finance, CIS Confederation of Independent States, CMP Computational Economics, CNA China, COM Industrial Competition, CSE Economics of Strategic Management, CTA Contract Theory & Applications, CUL Cultural Economics, CWA Central & Western Asia, DCM Discrete Choice Models, DEM Demographic Economics, DEV Development, DGE Dynamic General Equilibrium, ECM Econometrics, EDU Education, EEC European Economics, EFF Efficiency & Productivity, ENE Energy Economics, ENT Entrepreneurship, ENV Environmental Economics, ETS Econometric Time Series, EUR Microeconomics European Issues, EVO Evolutionary Economics, EXP Experimental Economics, FDG Financial Development & Growth, FIN Finance, FMK Financial Markets, FOR Forecasting, GEO Economic Geography, GRO Economic Growth, GTH Game Theory, HAP Economics of Happiness, HEA Health Economics, HIS Business, Economic & Financial History, HME Heterodox Microeconomics, HPE History & Philosophy of Economics, HRM Human Capital & Human Resource Management, IAS Insurance Economics, ICT Information & Communication Technologies, IFN International Finance, IND Industrial Organization, INO Innovation, INT International Trade, IPR Intellectual Property Rights, IUE Informal & Underground Economics, KNM Knowledge Management & Knowledge Economy, LAB Labour Economics, LAM Central & South America, LAW Law & Economics, LMA Labor Markets - Supply, Demand & Wages, LTV Unemployment, Inequality & Poverty, MAC Macroeconomics, MFD Microfinance, MIC Microeconomics, MIG Economics of Human Migration, MKT Marketing, MON Monetary Economics, MST Market Microstructure, NET Network Economics, NEU Neuroeconomics, OPM Open Macroeconomics, ORE Operations Research, PBE Public Economics, PKE Post Keynesian Economics, POL Positive Political Economics, PPM Project, Program & Portfolio Management, PUB Public Finance, REG Regulation, RES Resource Economics, RMG Risk Management, SBM Small Business Management, SEA South East Asia, SOC Social Norms & Social Capital, SOG Sociology of Economics, SPO Sports & Economics, TID Technology & Industrial Dynamics, TRA Transition Economics, TRE Transport Economics, TUR Tourism Economics, UPT Utility Models & Prospect Theory, URE Urban & Real Estate Economics.

ACC Accounting & Auditing, AFR Africa, AGE Economics of Ageing, AGR Agricultural Economics, ARA Arab World, BAN Banking, BEC Business Economics, CBA Central Banking, CBE Cognitive & Behavioural Economics, CDM Collective Decision - Making, CFN Corporate Finance, CIS Confederation of Independent States, CMP Computational Economics, CNA China, COM Industrial Competition, CSE Economics of Strategic Management, CTA Contract Theory & Applications, CUL Cultural Economics, CWA Central & Western Asia, DCM Discrete Choice Models, DEM Demographic Economics, DEV Development, DGE Dynamic General Equilibrium, ECM Econometrics, EDU Education, EEC European Economics, EFF Efficiency & Productivity, ENE Energy Economics, ENT Entrepreneurship, ENV Environmental Economics, ETS Econometric Time Series, EUR Microeconomic European Issues, EVO Evolutionary Economics, EXP Experimental Economics, FDG Financial Development & Growth, FIN Finance, FMK Financial Markets, FOR Forecasting, GEO Economic Geography, GRO Economic Growth, GTH Game Theory, HAP Economics of Happiness, HEA Health Economics, HIS Business, Economic & Financial History, HME Heterodox Microeconomics, HPE History & Philosophy of Economics, HRM Human Capital & Human Resource Management, IAS Insurance Economics, ICT Information & Communication Technologies, IFN International Finance, IND Industrial Organization, INO Innovation, INT International Trade, IPR Intellectual Property Rights, IUE Informal & Underground Economics, KNM Knowledge Management & Knowledge Economy, LAB Labour Economics, LAM Central & South America, LAW Law & Economics, LMA Labor Markets - Supply, Demand & Wages, LTV Unemployment, Inequality & Poverty, MAC Macroeconomics, MFD Microfinance, MIC Microeconomics, MIG Economics of Human Migration, MKT Marketing, MON Monetary Economics, MST Market Microstructure, NET Network Economics, NEU Neuroeconomics, OPM Open Macroeconomics, PBE Public Economics, PKE Post Keynesian Economics, POL Positive Political Economics, PPM Project, Program & Portfolio Management, PUB Public Finance, REG Regulation, RES Resource Economics, RMG Risk Management, SBM Small Business Management, SEA South East Asia, SOC Social Norms & Social Capital, SOG Sociology of Economics, SPO Sports & Economics, TID Technology & Industrial Dynamics, TRA Transition Economics, TRE Transport Economics, TUR Tourism Economics, UPT Utility Models & Prospect Theory, URE Urban & Real Estate Economics.

The economic modelling research on top provincial climate and energy policies is available here.

Karplus readily acknowledges that with any energy and economic modeling of this scale, many uncertainties remain.

One camp says its models prove the world is headed toward a dramatic economic collapse as energy scarcity takes hold, while another camp believes there is still time to turn the ship around.

By means of building simulations and advanced calculation models, the researchers came to the conclusion that using plenty of energy is both an economic and an environmental advantage, while it is also inexpensive and green.

According to Lester Brown, author of the 2003 book, Plan B (and three subsequent updates) and founder of the non-profit environmental think tank, Earth Policy Institute, the plan is based on replacing the fossil - fuel - based, automobile - centered, throwaway economy with a new economic model powered by abundant sources of renewable energy.

In a long piece, Princeton University economist and New York Times columnist Paul Krugman says economic forecasting models used to analyze proposed energy policies are insufficient for the task:

The researchers also worked with about a dozen wind energy companies to evaluate the models and confirm the economic findings were realistic.

A new integrated climate model developed by Oak Ridge National Laboratory and other institutions is designed to reduce uncertainties in future climate predictions as it bridges Earth systems with energy and economic models and large - scale human impact data.

A new integrated computational climate model developed to reduce uncertainties in future climate predictions marks the first successful attempt to bridge Earth systems with energy and economic models and large - scale human impact data.

Encouraging the uptake and use of biodegradable bags and materials is advantageous as this moves society away from a linear economic model based on «take, make, dispose», which relies on there being an infinite supply of resources and energy, to one that enables us to maximise the limited natural resources available.

Mr. Head specializes in STAMP modeling, a form of economic analysis that has been criticized for its limitations and poor assumptions in the case of energy analysis.

Director Dot Harris, Office of Economic Impact and Diversity at the Department of Energy, will be on the line with Dr. Rebecca Spyke - Keiser, Associate Deputy Administrator for Strategy and Policy at NASA; Jill Fuss, Scientist at Lawrence Berkeley National Laboratory, Stephanie Stilson, Engineer at Kennedy Space Center and NASA Headquarters, and a class at Andrew Jackson Middle School in Titusville, Florida, to discuss ways to find role models for young people in STEM fields and answer questions from students and the general public about STEM careers.

About Blog On Popular Logistics we explore the long - term national security and community security ramifications of energy, environmental, economic, emergency preparedness, and public health policy, and the interrelationships between the people, the companies, and the various systems involved in implementing or holding back the paradigm shift to sustainable models.

«Imagine basing a country's energy and economic policy on an incomplete, unproven theory — a theory based entirely on computer models in which one minor variable (CO2) is considered the sole driver for the entire global climate system.»

Improving a climate model or developing new energy resources is economic activity.

One highlight is $ 400 million set aside under the economic - recovery bill for an advanced research agency for energy, Arpa - E, modeled along the lines of the Defense Advanced Research Projects Agency.

But China is entering a new era of development as it transitions to a more services - based economic model and places emphasis on cleaner, more efficient energy technologies.

Based on the Jobs and Economic Development Index model, developed by NREL, developing one gigawatt worth of onshore wind energy capacity in Mississippi could support approximately 3,700 direct, indirect and induced jobs during construction and about 124 ongoing operation jobs with a total annual payroll of $ 5.9 million.

This computer model will quantify the economic, environmental, and social benefits of developing remote renewable energy sources and linking them to population centers via long distance electrical transmission lines.

(2007) • Contribution of Renewables to Energy Security (2007) • Modelling Investment Risks and Uncertainties with Real Options Approach (2007) • Financing Energy Efficient Homes Existing Policy Responses to Financial Barriers (2007) • CO2 Allowance and Electricity Price Interaction - Impact on Industry's Electricity Purchasing Strategies in Europe (2007) • CO2 Capture Ready Plants (2007) • Fuel - Efficient Road Vehicle Non-Engine Components (2007) • Impact of Climate Change Policy Uncertainty on Power Generation Investments (2006) • Raising the Profile of Energy Efficiency in China — Case Study of Standby Power Efficiency (2006) • Barriers to the Diffusion of Solar Thermal Technologies (2006) • Barriers to Technology Diffusion: The Case of Compact Fluorescent Lamps (2006) • Certainty versus Ambition — Economic Efficiency in Mitigating Climate Change (2006) • Sectoral Crediting Mechanisms for Greenhouse Gas Mitigation: Institutional and Operational Issues (2006) • Sectoral Approaches to GHG Mitigation: Scenarios for Integration (2006) • Energy Efficiency in the Refurbishment of High - Rise Residential Buildings (2006) • Can Energy - Efficient Electrical Appliances Be Considered «Environmental Goods»?

In recent months we've posted a number of times on the «U.S. Model» of domestic energy and economic growth — coupled with greenhouse gas reductions (see here, here and here).

Using a combination of economic and power sector models to analyze the cost, emissions, and broader economic impacts of potential or proposed state, regional, and national energy plans

Synapse performs operational and planning modeling analyses of electric power systems using industry - standard models such as Strategist, EnCompass, Market Analytics, PROMOD, and PLEXOS to evaluate long - term energy plans, assess the environmental and economic impacts of policy initiatives, and review utility system modeling.

We used the Heritage Energy Model (HEM), [8] a clone of the National Energy Modeling System 2015 Full Release (NEMS), [9] to quantify the economic impact of instituting the regulations associated with the policies stemming from the Paris agreement.

Most developed countries supported a text calling for a transition to a green economy that included phasing out fossil fuel subsidies, the use and production of renewable energies, and creating «green» jobs in this new economic model.

A recent multi-model study coordinated by the Energy Modeling Forum at Stanford University (EMF 27) brought together many energy - economic models to assess technology and policy pathways associated with various climate stabilization targets (e.g., 450, 550 ppm CO2 equivalent or CO2e), partially in support of the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (Energy Modeling Forum at Stanford University (EMF 27) brought together many energy - economic models to assess technology and policy pathways associated with various climate stabilization targets (e.g., 450, 550 ppm CO2 equivalent or CO2e), partially in support of the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (energy - economic models to assess technology and policy pathways associated with various climate stabilization targets (e.g., 450, 550 ppm CO2 equivalent or CO2e), partially in support of the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC).

To estimate the economic cost of the proposed regulations, we employed the Heritage Energy Model (HEM), a derivative of the National Energy Model System 2014 Full Release (NEMS).

[19] Steven A. Gabriel, Andy S. Kydes, and Peter Whitman, «The National Energy Modeling System: A Large - Scale Energy - Economic Equilibrium Model,» Operations Research, Vol.

Today's climate models are even more clever and complex, dependent on questionable assumptions and massaged data, unable to predict temperatures or climate events, and employed to justify costly energy and economic policies.

Atkeson, A. and P. J. Kehoe (1999): «Models of energy use: Putty - putty versus putty - clay,» American Economic Review, 89, 1028 - 1043.

Integrated assessment models (IAMs) take underlying socioeconomic factors, such as population and economic growth, as well as a climate target — such as limiting warming to 1.5 C — and estimate what changes could happen to energy production, use, and emissions in different regions of the world to reach the targets in the most cost - effective way.

For Brazil, international climate negotiations should not be focused on discussing REDD and other market - based mechanisms, but rather on the transition to a new production, distribution and consumption model based on agroecology, on a solidarity - based economic approach, and on a diversified and decentralized energy matrix capable of ensuring food security and sovereignty.

Omri, Anis and Kahouli, Bassem (2013): Causal relationships between energy consumption, foreign direct investment and economic growth: Fresh evidence from dynamic simultaneous - equations models.

Kriegler et al. (2013) examine this using an integrated assessment model that represents global energy use, as well as the Earth's climate and economic systems.

Amiri, Arshia and Zibaei, Mansour (2012): Granger causality between energy use and economic growth in France with using geostatistical models.

Avelino, Andre F. T. and Hewings, Geoffrey J. D. and Guilhoto, Joaquim José Martins (2012): EPSIM - A Social - Environmental Regional Sequential Interindustry Economic Model for Energy Planning: Evaluating the Impacts of New Power Plants in Brazil.

Our report [PDF] found fundamental flaws in both the energy data and the economic modeling used by BHI.

«In many ways, it codified market forces already at work that are driving the adoption of energy efficiency, renewable energy and grid services that independent modeling shows can reduce costs for customers, create jobs and economic impact, and offer more competitive energy options.»

These planetary crises are being driven by unsustainable economic and development models, and the concentration of power over energy goods and services in the hands of a wealthy few.

His expertise is in the economic modeling and analysis of energy systems, with experience in both broad - scale energy policy analysis and in detailed financial analysis of private - sector electric power generation assets.

Above all, these supposed modeling experts and climate scientists need to terminate their biases and their evangelism of political agendas that seek to slash fossil fuel use, «transform» our energy and economic systems, reduce our standards of living, and «permit» African and other impoverished nations to enter the modern era only in a «sustainable manner,» as callous elitists often insist.

The AEO is developed using the National Energy Modeling System (NEMS), an integrated model that captures interactions of economic changes and energy supply, demand, and pEnergy Modeling System (NEMS), an integrated model that captures interactions of economic changes and energy supply, demand, and penergy supply, demand, and prices.

Utility Wind Integration Wind flow modeling in complex terrain Wind power desalination Economic impacts Avian and bat interactions Education NAU wind energy and renewable energy courses, capstone projects Internships / seminars Arizona Wind and Geothermal Working Group Arizona Geothermal Working Group Southwest Renewable Energy Conference Renewable Energy Test Facility (10 kW) Technology Transfer Wind Finders, TecVerde, SWWP Project Implementation Native American business planning Shonto, AZ Chaptenergy and renewable energy courses, capstone projects Internships / seminars Arizona Wind and Geothermal Working Group Arizona Geothermal Working Group Southwest Renewable Energy Conference Renewable Energy Test Facility (10 kW) Technology Transfer Wind Finders, TecVerde, SWWP Project Implementation Native American business planning Shonto, AZ Chaptenergy courses, capstone projects Internships / seminars Arizona Wind and Geothermal Working Group Arizona Geothermal Working Group Southwest Renewable Energy Conference Renewable Energy Test Facility (10 kW) Technology Transfer Wind Finders, TecVerde, SWWP Project Implementation Native American business planning Shonto, AZ ChaptEnergy Conference Renewable Energy Test Facility (10 kW) Technology Transfer Wind Finders, TecVerde, SWWP Project Implementation Native American business planning Shonto, AZ ChaptEnergy Test Facility (10 kW) Technology Transfer Wind Finders, TecVerde, SWWP Project Implementation Native American business planning Shonto, AZ Chapter 5 /

He is an expert on regional modeling and applying it to policy analysis, economic impact analysis, and energy modeling.

This is definitely not a downside (as long as we rework the economic model along with the energy model).

At CDA, Dayaratna instituted the Heritage Energy Model, derived from the Energy Information Administration's National Energy Modeling System, to quantify and help policymakers understand the long - term economic effects of energy policy propEnergy Model, derived from the Energy Information Administration's National Energy Modeling System, to quantify and help policymakers understand the long - term economic effects of energy policy propEnergy Information Administration's National Energy Modeling System, to quantify and help policymakers understand the long - term economic effects of energy policy propEnergy Modeling System, to quantify and help policymakers understand the long - term economic effects of energy policy propenergy policy proposals.

Top - ranked applicants will receive a refined economic analysis and building energy model for their proposed GSHP systems at no cost.