Sentences with phrase «energy technology scenarios»
Energy technology scenarios and strategies for a more secure and sustainable energy future 22 June 2006
https://www.iea.org/
We would like to build on the outcomes of that meeting and discuss the emerging conclusions of the International Energy Agency's (IEA) latest analysis of global energy technology scenarios and roadmaps.
Not exact matches
A. Is beneficial, safe & healthy for individuals and communities throughout its life cycle; B. Meets market criteria for performance and cost; C. Is sourced, manufactured, transported, and recycled using renewable energy; D. Optimizes the use of renewable or recycled source materials; E. Is manufactured using clean production technologies and best practices; F. Is made from materials healthy in all probable end - of - life scenarios; G. Is physically designed to optimize materials and energy; H. Is effectively recovered and utilized in biological and / or industrial closed loop cycles.
The model produces different jobs and growth projections for a business - as - usual scenario with no technology breakthroughs or major new policies, and then generates different outcomes by factoring in new policies such as a national clean energy standards such as proposed by President Obama; increases in corporate average fuel economy standards; tougher environmental controls on coal - fired power generators; extended investment and production tax credits for clean energy sources and an expanded federal energy loan guarantee program.
The «Allowable» scenario shows the potential of energy wood assuming full utilization of the annual allowable cut, based on current logging technology and increasing sawn timber production.
The book includes chapters on the economic assumptions used, energy supply and storage technologies, demand and technology assumptions, a reference scenario, variations on that scenario, federal and state policies needed, a «roadmap,» and a final chapter of the main findings and recommendations.
Shaping the future Can this mutually threatening scenario change the content of school curriculums to equip those who do not bear responsibility, but who will suffer the consequences, with the knowledge and commitment to help to shape a low carbon clean energy and technology future?
The company explained the iBooster and ESP - hev technology balance the use of the CT6 electric motors to act as generators to slow the vehicle and capture as much kinetic energy as possible during low - demand scenarios, while blending the traditional hydraulic brakes with the motors in high - demand scenarios.
Conversely, although nuclear energy accounts for less than 10 percent of the GHG emission reduction potentials across all scenarios, it has received some 50 percent of the total public investment in energy technology R&D.
McIntyre's analysis shows the deep involvement of an activist from Greenpeace International in writing an important chapter that ends up focusing on a scenario for energy technologies developed by none other than Greenpeace.
Users can select from a list of 19 different policies and technologies — including energy efficiency, renewable energy, nuclear power, emission control options, and natural gas — to build a compliance scenario for their state.
The ranges of solar energy deployment at the global level are extremely large, also compared to other RE sources (see Section 10.2.2.5), indicating a very wide range of assumptions about the future development of solar technologies in the reviewed scenarios.»
Premature deaths worldwide from outdoor air pollution rise from 3 million today to more than 4 million in 2040 in the New Policies Scenario, even though pollution control technologies are applied more widely and other emissions are avoided because energy services are provided more efficiently or (as with wind and solar) without fuel combustion.
The scale of China's clean energy deployment, technology exports and outward investment makes it a key determinant of momentum behind the low - carbon transition: one - third of the world's new wind power and solar PV is installed in China in the New Policies Scenario, and China also accounts for more than 40 % of global investment in electric vehicles (EVs).
In the Outlook's «Reference Scenario», which projects energy trends in the absence of new government policies or accelerated deployment of new technology, world primary energy demand is set to rise by 59 % from now till 2030.
«Although such estimates of future deployment of carbon - free energy sources indicate that it may be possible to achieve a decarbonized energy system, great uncertainties remain regarding the implementation of such scenarios due to factors such as costs, technology evolution, public policies, and barriers to deployment of new technologies (NRC, 2010b)»
This team, led by Jose Marengo of the Brazilian National Institute for Space Research (INPE), assesses the local impacts of the global SRES A1B emissions scenario, an old IPCC scenario for (A1) a world with rapid economic growth, decreasing population after 2050 and rapid implementation of efficient technologies with (B) a «balanced mix of energy sources».
GCAM reference scenario results showing a global GDP and population drivers, b global primary energy consumption by fuel source, c global electricity production by technology, and d global allocation of land among major land cover and land use categories
(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»?
The scenarios indicating the feasibility of bringing temperatures down below 1.5 C are «characterised by (1) immediate mitigation action; (2) the rapid upscaling of the full portfolio of mitigation technologies; and (3) development along a low ‐ energy demand trajectory.»
• Carbon Dioxide Capture and Storage (2006) • Energy Sector Methane Recovery and Use Initiative (2007) • IEA Energy Technology Essentials: Biofuel Production, Biomass Power for Power Generation and CHP, CO2 Capture and Storage, Fuel Cells, Hydrogen Production and Distribution, Nuclear Power (2007 & 2006) • International CHP / DHC Collaborative (2007) • International Energy Technology Co-operation — Frequently Asked Questions (Chinese, Russian)(2006/7) • Renewables in Global Energy Supply (2007) • Energy Technology Perspectives Fact Sheets: Buildings and Appliances; Electricity Generation; Industry; Road Transport Technologies and Fuels; and Scenario Analysis (2006)
Energy policy, Scenarios, WEO, Clean energy technologies, Energy poverty, Air pollution, China, India, Indonesia, Mexico, South Africa, ThEnergy policy, Scenarios, WEO, Clean energy technologies, Energy poverty, Air pollution, China, India, Indonesia, Mexico, South Africa, Thenergy technologies, Energy poverty, Air pollution, China, India, Indonesia, Mexico, South Africa, ThEnergy poverty, Air pollution, China, India, Indonesia, Mexico, South Africa, Thailand
Explore below how different policy, technology cost and energy demand assumptions affect installed solar PV capacity in our scenarios, and how these compare against other industry projections.
All energy sources remain important across all 13 scenarios though the mix of energy and technology shifts over time.
In every scenario this means a dramatic increase in non-fossil energy production, so no matter what else happens, we clearly need these technologies.
For each sector in the Primary Scenario, Acadia Center analyzed combinations of penetration levels of clean energy technologies that will lead to the necessary reductions from 1990 levels.
While the IPCC tries to avoid explicitly telling governments what they should do, the report will present scenarios showing that warming can be kept in check if the world shifts its energy system toward renewable sources like wind and solar power and implements technologies to capture greenhouse gases from the atmosphere.
fluxHome reimagines the suburban tract home in an energy efficient and affordable combination of smart home technologies with readily available and customizable components that can serve as a single family residence for up to four people or be adapted to other lifestyle scenarios.
As scenario analysis is mooted as a useful tool to understand the risks of the energy transition, it is clear that using a scenario with no changes in technology and policy (the CPS) or the new policy scenario (NPS)(AKA the «no new policies scenario»), which includes what is already known about and set to come into force does not help companies or their shareholders understand risk and opportunity.
In the Primary and Accelerated Scenarios, clean energy technologies and the forecast of their growth are based on literature reviews, commitments made by states, demonstrated achievements and likely technological advances.
For the Primary and Accelerated Scenarios, changes to the baseline consumption were made based on forecasts of clean energy technology penetrations in different sectors.
Source & ©: IEA, Energy Technology Perspectives 2008: Scenarios and strategies to 2050.
In order to reach the global targets set into the ACT and BLUE scenarios, the International Energy Agency (IEA) has identified seventeen key technologies for energy efficiency, power generation and transport and, for each, has drawn a roadmap that describes the actions required to deliver their poteEnergy Agency (IEA) has identified seventeen key technologies for energy efficiency, power generation and transport and, for each, has drawn a roadmap that describes the actions required to deliver their poteenergy efficiency, power generation and transport and, for each, has drawn a roadmap that describes the actions required to deliver their potential.
The potential for reducing CO [sub 2] emissions with modern energy technology: An illustrative scenario for the power sector in China
This scenario is characterized by «very rapid economic growth, global population that peaks in mid-century and declines thereafter... the rapid introduction of new technologies,... and the assumption that similar improvement rates apply to all energy supply and end - use technologies».
Any reasonable scenario for global development over the next century is likely to project technological change, which as we have seen in the past century would likely include changes in energy creation and consumption technologies, as well as the propagation of the kind of normal environmental policies that we have seen in the developed world in the past century, such as control of sulfur pollution.
For the first time, the 29 - member intergovernmental group's annual Energy Technology Perspectives report, the 2017 edition published today, maps a «below 2C» scenario.
These include how best to promote the deployment of technologies that are unambiguously aligned with 2 °C scenarios, how to put in place the conditions that foster alignment with such scenarios, whether and how to deploy energy - supply technologies that remain controversial, and how to manage the risk of technologies that lock in high carbon energy generation for long time periods.
An excerpt of Energy Technology Perspectives 2015 (ETP 2015), the report tracks each technology and sector against interim 2025 targets in ETP 2015's 2 °C scenario, which lays out pathways to a sustainable energy system inEnergy Technology Perspectives 2015 (ETP 2015), the report tracks each technology and sector against interim 2025 targets in ETP 2015's 2 °C scenario, which lays out pathways to a sustainable energy systeTechnology Perspectives 2015 (ETP 2015), the report tracks each technology and sector against interim 2025 targets in ETP 2015's 2 °C scenario, which lays out pathways to a sustainable energy systetechnology and sector against interim 2025 targets in ETP 2015's 2 °C scenario, which lays out pathways to a sustainable energy system inenergy system in 2050.
What we can say, then, is that the WEO in its New Policies scenario in effect treats renewable energy technologies as a «black swan», whereas in reality their development is quite stable and consistent.
Climate change and energy policy with focus on energy technology policy assessment, energy supply policy assessment, renewable energy development and energy conservation, including energy and emission scenarios, assessment on energy and fuel tax, research on China's potential to achieve its energy targets and development of the Integrated Policy Assessment models.
Dr. Romm helped lead the administration's climate technology policy formulation, and initiated, supervised, and publicized a comprehensive technical analysis by five national laboratories of how energy technologies can reduce greenhouse gas emissions at low - cost: Scenarios of U.S. Carbon Reductions.
The Energy Cloud scenario describes a radical transformation of energy markets as the one - way power grid gives way to a more dynamic network of stakeholders, technologies, and infrastruEnergy Cloud scenario describes a radical transformation of energy markets as the one - way power grid gives way to a more dynamic network of stakeholders, technologies, and infrastruenergy markets as the one - way power grid gives way to a more dynamic network of stakeholders, technologies, and infrastructure.
This scenario includes having the best technology to perform, and using market mechanisms to achieve energy access for everyone.
In the IEA's Energy Technology Perspectives 2012 2 °C Scenario (2DS), CCS contributes about one ‐ seventh of cumulative emissions reductions from a business ‐ as - usual scenario throuScenario (2DS), CCS contributes about one ‐ seventh of cumulative emissions reductions from a business ‐ as - usual scenario throuscenario through 2050.
The International Energy Agency (IEA) recently produced a new edition of its «Energy Technology Perspectives - Scenarios and Strategies to 2050».
Theoretical scenarios for climate mitigation typically reflect their creators» technological preferences and analytical assumptions while all too often failing to account for the cost, rate, and scale at which low - carbon energy technologies can be deployed.
Future energy scenarios are dependent on assumptions about the prices and scalability of energy sources, often relying on historic learning curves to predict the future costs of various fuels or generation technologies.
Rather, mitigation scenarios represent major transformations of the economy relative to baseline scenarios and, thus, represent large and highly non-linear changes that will strongly impact the development of new energy technologies on both the supply and demand sides, as well as other relevant technologies that offset greenhouse gas emissions worldwide.
It does not have the crucial role that renewable energy technologies have within our scenarios.