Search

Your search keyword '"Weyant J"' showing total 111 results
Start Over Author "Weyant J"
111 results on '"Weyant J"'

1. Global biomass supply modeling for long-run management of the climate system

Author

Rose, S., Popp, A., Fujimori, S., Havlik, P., Weyant, J., Wise, M., van Vuuren, D., Brunelle, T., Cui, R., Daioglou, V., Frank, S., Hasegawa, T., Humpenöder, F., Kato, E., Sands, R., Sano, F., Tsutsui, J., Doelman, J., Muratori, M., Prudhomme, R., Wada, K., Yamamoto, H., Rose, S., Popp, A., Fujimori, S., Havlik, P., Weyant, J., Wise, M., van Vuuren, D., Brunelle, T., Cui, R., Daioglou, V., Frank, S., Hasegawa, T., Humpenöder, F., Kato, E., Sands, R., Sano, F., Tsutsui, J., Doelman, J., Muratori, M., Prudhomme, R., Wada, K., and Yamamoto, H.

Abstract

Bioenergy is projected to have a prominent, valuable, and maybe essential, role in climate management. However, there is significant variation in projected bioenergy deployment results, as well as concerns about the potential environmental and social implications of supplying biomass. Bioenergy deployment projections are market equilibrium solutions from integrated modeling, yet little is known about the underlying modeling of the supply of biomass as a feedstock for energy use in these modeling frameworks. We undertake a novel diagnostic analysis with ten global models to elucidate, compare, and assess how biomass is supplied within the models used to inform long-run climate management. With experiments that isolate and reveal biomass supply modeling behavior and characteristics (costs, emissions, land use, market effects), we learn about biomass supply tendencies and differences. The insights provide a new level of modeling transparency and understanding of estimated global biomass supplies that informs evaluation of the potential for bioenergy in managing the climate and interpretation of integrated modeling. For each model, we characterize the potential distributions of global biomass supply across regions and feedstock types for increasing levels of quantity supplied, as well as some of the potential societal externalities of supplying biomass. We also evaluate the biomass supply implications of managing these externalities. Finally, we interpret biomass market results from integrated modeling in terms of our new understanding of biomass supply. Overall, we find little consensus between models on where biomass could be cost-effectively produced and the implications. We also reveal model specific biomass supply narratives, with results providing new insights into integrated modeling bioenergy outcomes and differences. The analysis finds that many integrated models are considering and managing emissions and land use externalities of supplying biomass and estimati

Published
2022
Full Text
View/download PDF

2. The contribution of bioenergy to the decarbonization of transport: a multi-model assessment

Author

Leblanc, F., Bibas, R., Mima, S., Muratori, M., Sakamoto, S., Sano, F., Bauer, N., Daioglou, V., Fujimori, S., Gidden, M., Kato, E., Rose, S.K., Tsutsui, J., van Vuuren, D.P., Weyant, J., Wise, M., Leblanc, F., Bibas, R., Mima, S., Muratori, M., Sakamoto, S., Sano, F., Bauer, N., Daioglou, V., Fujimori, S., Gidden, M., Kato, E., Rose, S.K., Tsutsui, J., van Vuuren, D.P., Weyant, J., and Wise, M.

Abstract

The expected growth in the demand for passenger and freight services exacerbates the challenges of reducing transport GHG emissions, especially as commercial low-carbon alternatives to petroleum fuels are limited for shipping, air and long-distance road travel. Biofuels can offer a pathway to significantly reduce emissions from these sectors, as they can easily substitute for conventional liquid fuels in internal combustion engines. In this paper, we assess the potential of bioenergy to reduce transport GHG emissions through an analysis leveraging various integrated assessment models and scenarios, as part of the 33rd Energy Modeling Forum study (EMF-33). We find that bioenergy can contribute a significant, albeit not dominant, proportion of energy supply to the future transport sector: in scenarios aiming to keep the temperature increase below 2 °C by the end of the twenty-first century, models project that in 2100 bioenergy can provide on average 42 EJ/yr (ranging from 5 to 85 EJ/yr) for transport (compared to 3.7 EJ in 2018), mainly through lignocellulosic fuels. This makes up 9–62% of final transport energy use. Only a small amount of bioenergy is projected to be used in transport through electricity and hydrogen pathways, with a larger role for biofuels in road passenger transport than in freight. The association of carbon capture and storage (CCS) with bioenergy technologies (BECCS) is a key determinant in the role of biofuels in transport, because of the competition for biomass feedstock to provide other final energy carriers along with carbon removal. Among models that consider CCS in the biofuel conversion process the average market share of biofuels is 21% in 2100 (ranging from 2 to 44%), compared to 10% (0–30%) for models that do not. Cumulative direct emissions from the transport sector account for half of the emission budget (from 306 to 776 out of 1,000 GtCO2). However, the carbon intensity of transport decreases as much as other energy sectors in 2100

Published
2022

3. An overview of the Energy Modeling Forum 33rd study: assessing large-scale global bioenergy deployment for managing climate change

Author

Rose, S.K., Bauer, N., Popp, A., Weyant, J., Fujimori, S., Havlik, P., Wise, M., van Vuuren, D.P., Rose, S.K., Bauer, N., Popp, A., Weyant, J., Fujimori, S., Havlik, P., Wise, M., and van Vuuren, D.P.

Abstract

Previous studies have projected a significant role for bioenergy in decarbonizing the global economy and helping realize international climate goals such as limiting global average warming to 2 ˚C or 1.5 ˚C. However, with substantial variability in bioenergy results and significant concerns about potential environmental and social implications, greater transparency and dedicated assessment of the underlying modeling and results and more detailed understanding of the potential role of bioenergy are needed. Stanford University’s Energy Modeling Forum (EMF) initiated a 33rd study (EMF-33) to explore the viability of large-scale bioenergy as part of a comprehensive climate management strategy. This special issue presents the papers of the EMF-33 study—a multi-year inter-model comparison project designed to understand and assess global, long-run biomass supply and bioenergy deployment potentials and related uncertainties. Using a novel scenario design with independent biomass supply and bioenergy demand protocols, EMF-33 separately elucidates and explores the modeling of biomass feedstock supplies and bioenergy technologies and their deployment—revealing, comparing, and assessing the modeling that is suggesting that bioenergy could be a key climate containment strategy. This introduction provides an overview of the EMF-33 study design and the overview, thematic, and individual modeling team papers and types of insights that make up this special issue. By providing enhanced transparency and new detailed insights, we hope to inform policy dialogue about the potential role of bioenergy and facilitate new research.

Published
2020

4. EMF-33 insights on bioenergy with carbon capture and storage (BECCS)

Author

Muratori, M., Bauer, N., Rose, S.K., Wise, M., Daioglou, V., Cui, Y., Kato, E., Gidden, M., Strefler, J., Fujimori, S., Sands, R.D., van Vuuren, D.P., Weyant, J., Muratori, M., Bauer, N., Rose, S.K., Wise, M., Daioglou, V., Cui, Y., Kato, E., Gidden, M., Strefler, J., Fujimori, S., Sands, R.D., van Vuuren, D.P., and Weyant, J.

Abstract

This paper explores the potential role of bioenergy coupled to carbon dioxide (CO2) capture and storage (BECCS) in long-term global scenarios. We first validate past insights regarding the potential use of BECCS in achieving climate goals based on results from 11 integrated assessment models (IAMs) that participated in the 33rd study of the Stanford Energy Modeling Forum (EMF-33). As found in previous studies, our results consistently project large-scale cost-effective BECCS deployment. However, we also find a strong synergistic nexus between CCS and biomass, with bioenergy the preferred fuel for CCS as the climate constraint increases. Specifically, the share of bioenergy that is coupled to CCS technologies increases since CCS effectively enhances the emissions mitigation capacity of bioenergy. For the models that include BECCS technologies across multiple sectors, there is significant deployment in conjunction with liquid fuel or hydrogen production to decarbonize the transportation sector. Using a wide set of scenarios, we find carbon removal to be crucial to achieving goals consistent with 1.5 °C warming. However, we find earlier BECCS deployment but not necessarily greater use in the long-term since ultimately deployment is limited by economic competition with other carbon-free technologies, especially in the electricity sector, by land-use competition (especially with food) affecting biomass feedstock availability and price, and by carbon storage limitations. The extent of BECCS deployment varies based on model assumptions, with BECCS deployment competitive in some models below carbon prices of 100 US$/tCO2. Without carbon removal, 2 °C is infeasible in some models, while those that solve find similar levels of bioenergy use but substantially greater mitigation costs. Overall, the paper provides needed transparency regarding BECCS’ role, and results highlight a strong nexus between bioenergy and CCS, and a large reliance on not-yet-commercial BECCS technologie

Published
2020

6. Global energy sector emission reductions and bioenergy use: overview of the bioenergy demand phase of the EMF-33 model comparison

Author

Bauer, N., Rose, S.K., Fujimori, S., van Vuuren, D.P., Weyant, J., Wise, M., Cui, Y., Daioglou, V., Gidden, M., Kato, E., Kitous, A., Leblanc, F., Sands, R., Sano, F., Strefler, J., Tsutsui, J., Bibas, R., Fricko, O., Hasegawa, T., Klein, D., Kurosawa, A., Mima, S., Muratori, M., Bauer, N., Rose, S.K., Fujimori, S., van Vuuren, D.P., Weyant, J., Wise, M., Cui, Y., Daioglou, V., Gidden, M., Kato, E., Kitous, A., Leblanc, F., Sands, R., Sano, F., Strefler, J., Tsutsui, J., Bibas, R., Fricko, O., Hasegawa, T., Klein, D., Kurosawa, A., Mima, S., and Muratori, M.

Abstract

We present an overview of results from 11 integrated assessment models (IAMs) that participated in the 33rd study of the Stanford Energy Modeling Forum (EMF-33) on the viability of large-scale deployment of bioenergy for achieving long-run climate goals. The study explores future bioenergy use across models under harmonized scenarios for future climate policies, availability of bioenergy technologies, and constraints on biomass supply. This paper provides a more transparent description of IAMs that span a broad range of assumptions regarding model structures, energy sectors, and bioenergy conversion chains. Without emission constraints, we find vastly different CO2 emission and bioenergy deployment patterns across models due to differences in competition with fossil fuels, the possibility to produce large-scale bio-liquids, and the flexibility of energy systems. Imposing increasingly stringent carbon budgets mostly increases bioenergy use. A diverse set of available bioenergy technology portfolios provides flexibility to allocate bioenergy to supply different final energy as well as remove carbon dioxide from the atmosphere by combining bioenergy with carbon capture and sequestration (BECCS). Sector and regional bioenergy allocation varies dramatically across models mainly due to bioenergy technology availability and costs, final energy patterns, and availability of alternative decarbonization options. Although much bioenergy is used in combination with CCS, BECCS is not necessarily the driver of bioenergy use. We find that the flexibility to use biomass feedstocks in different energy sub-sectors makes large-scale bioenergy deployment a robust strategy in mitigation scenarios that is surprisingly insensitive with respect to reduced technology availability. However, the achievability of stringent carbon budgets and associated carbon prices is sensitive. Constraints on biomass feedstock supply increase the carbon price less significantly than excluding BECCS because c

Published
2018

7. Bioenergy in energy transformation and climate management

Author

Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., Weyant, J., Environmental Sciences, centre international de recherche sur l'environnement et le développement (CIRED), Centre National de la Recherche Scientifique (CNRS)-École des Ponts ParisTech (ENPC)-École des hautes études en sciences sociales (EHESS)-AgroParisTech-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), and Environmental Sciences

Subjects
Atmospheric Science, Global and Planetary Change, Primary energy, Natural resource economics, business.industry, Fossil fuel, Climate change, Biomass, Bio-energy with carbon capture and storage, 7. Clean energy, 12. Responsible consumption, Climate change mitigation, Agronomy, 13. Climate action, Bioenergy, Biofuel, Taverne, [SDE]Environmental Sciences, 11. Sustainability, Environmental science, business
Abstract

International audience; This study explores the importance of bioenergy to potential future energy transformation and climate change management. Using a large inter-model comparison of 15 models, we comprehensively characterize and analyze future dependence on, and the value of, bioenergy in achieving potential long-run climate objectives. Model scenarios project, by 2050, bioenergy growth of 1 to 10 % per annum reaching 1 to 35 % of global primary energy, and by 2100, bioenergy becoming 10 to 50 % of global primary energy. Non-OECD regions are projected to be the dominant suppliers of biomass, as well as consumers, with up to 35 % of regional electricity from biopower by 2050, and up to 70 % of regional liquid fuels from biofuels by 2050. Bioenergy is found to be valuable to many models with significant implications for mitigation and macroeconomic costs of climate policies. The availability of bioenergy, in particular biomass with carbon dioxide capture and storage (BECCS), notably affects the cost-effective global emissions trajectory for climate management by accommodating prolonged near-term use of fossil fuels, but with potential implications for climate outcomes. Finally, we find that models cost-effectively trade-off land carbon and nitrous oxide emissions for the long-run climate change management benefits of bioenergy. The results suggest opportunities, but also imply challenges. Overall, further evaluation of the viability of large-scale global bioenergy is merited. © 2013 Springer Science+Business Media Dordrecht.

Published
2013
Full Text
View/download PDF

8. Non-Kyoto radiative forcing in long-run greenhouse gas emissions and climate change scenarios

Author

Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., Weyant, J., and Environmental Sciences

Subjects
Cloud forcing, Pollution, Atmospheric Science, Global and Planetary Change, Forcing (recursion theory), media_common.quotation_subject, Air pollution, Climate change, Radiative forcing, medicine.disease_cause, Atmospheric sciences, chemistry.chemical_compound, chemistry, Climatology, Greenhouse gas, Taverne, medicine, Environmental science, Tropospheric ozone, media_common
Abstract

Climate policies must consider radiative forcing from Kyoto greenhouse gases, as well as other forcing constituents, such as aerosols and tropospheric ozone that result from air pollutants. Non-Kyoto forcing constituents contribute negative, as well as positive forcing, and overall increases in total forcing result in increases in global average temperature. Non-Kyoto forcing modeling is a relatively new component of climate management scenarios. This paper describes and assesses current non-Kyoto radiative forcing modeling within five integrated assessment models. The study finds negative forcing from aerosols masking (offsetting) approximately 25 % of positive forcing in the near-term in reference non-climate policy projections. However, masking is projected to decline rapidly to 5-10 % by 2100 with increasing Kyoto emissions and assumed reductions in air pollution-with the later declining to as much as 50 % and 80 % below today's levels by 2050 and 2100 respectively. Together they imply declining importance of non-Kyoto forcing over time. There are however significant uncertainties and large differences across models in projected non-Kyoto emissions and forcing. A look into the modeling reveals differences in base conditions, relationships between Kyoto and non-Kyoto emissions, pollution control assumptions, and other fundamental modeling. In addition, under climate policy scenarios, we find air pollution and resulting non-Kyoto forcing reduced to levels below those produced by air pollution policies alone-e.g., China sulfur emissions fall an additional 45-85 % by 2050. None of the models actively manage non-Kyoto forcing for climate implications. Nonetheless, non-Kyoto forcing may be influencing mitigation results, including allowable carbon dioxide emissions, and further evaluation is merited.

Published
2013
Full Text
View/download PDF

9. Large gaps dynamics in the mountain forests of the french Alps

Author

Fuhr, M., Weyant, J., Durand, N., Riond, C., Irstea Publications, Migration, Ecosystèmes montagnards (UR EMGR), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), and Office National des Forêts (ONF)

Subjects
[SDE] Environmental Sciences, [SDE]Environmental Sciences, ALPES DU NORD
Abstract

National audience; Le projet dynamique des grandes trouées en forêt de montagne (Alpes du Nord) a rétrospectivement reconstitué la cicatrisation d’ouvertures anciennes, d’origine naturelle ou sylvicole, pour les principaux types de peuplement des Alpes du Nord. Aux étages montagnard et haut montagnard, dans des contextes stationnels non contraignants, il faut 20 à 25 ans pour refermer une trouée sans régénération pré-existante. Le peuplement est alors dominé par les bas perchis (entre 5 et 10 cm de diamètre) qui atteignent une densité de l’ordre de 1000 à 1500 tiges.ha-1. A 30 ans, le peuplement est dominé par les haut perchis (entre 10 et 15 cm de diamètre) qui atteignent une densité de l’ordre de 600 à 800 tiges.ha-1. Au cours de ces 30 premières années, dans le secteur externe, les stades de développement les plus avancés (perchis) sont cependant essentiellement constitués d’essences pionnières (bouleau, saule,…) et de sorbier. Le remplacement par les essences résineuses (épicéa, sapin) se dessine dans les stades de développement moins avancés (régénération) et, vers 30 ans, la hauteur des essences résineuses rejoint voire dépasse celle des essences pionnières et du sorbier. La fermeture du couvert est beaucoup plus lente : •à l’étage subalpin. Si elle ne s’appuie pas sur une tâche de régénération pré-existante, il faut plus de 50 ans pour qu’une trouée se referme. La concurrence des essences pionnières est aussi très importante dans le secteur externe, •dans les contextes stationnels contraignants, en particulier sur sols secs superficiels où le GSM préconise de ne pas ouvrir de trouées (hêtraies-sapinières sèches, 5.3, sapinières-pessières peu humides, 6.4). Des observations similaires ont été faites dans des contextes très humides (mégaphorbiaies), en dehors de l’étude. •dans les trouées les plus grandes (de l’ordre d’une dizaine d’hectares), probablement en raison de l’éloignement des semenciers. Par contre, dans une gamme de taille de trouées s’étalant de 0,2 ha à 2 voire 3 ha, on ne note pas d’effet notable de la taille de la trouée sur la vitesse de fermeture du couvert. Les travaux du sol (crochetage en plein ou localisé) accélèrent considérablement la fermeture du couvert.

Published
2015

10. Non-Kyoto radiative forcing in long-run greenhouse gas emissions and climate change scenarios

Author

Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., Weyant, J., and Environmental Sciences

Subjects
Taverne
Abstract

Climate policies must consider radiative forcing from Kyoto greenhouse gases, as well as other forcing constituents, such as aerosols and tropospheric ozone that result from air pollutants. Non-Kyoto forcing constituents contribute negative, as well as positive forcing, and overall increases in total forcing result in increases in global average temperature. Non-Kyoto forcing modeling is a relatively new component of climate management scenarios. This paper describes and assesses current non-Kyoto radiative forcing modeling within five integrated assessment models. The study finds negative forcing from aerosols masking (offsetting) approximately 25 % of positive forcing in the near-term in reference non-climate policy projections. However, masking is projected to decline rapidly to 5-10 % by 2100 with increasing Kyoto emissions and assumed reductions in air pollution-with the later declining to as much as 50 % and 80 % below today's levels by 2050 and 2100 respectively. Together they imply declining importance of non-Kyoto forcing over time. There are however significant uncertainties and large differences across models in projected non-Kyoto emissions and forcing. A look into the modeling reveals differences in base conditions, relationships between Kyoto and non-Kyoto emissions, pollution control assumptions, and other fundamental modeling. In addition, under climate policy scenarios, we find air pollution and resulting non-Kyoto forcing reduced to levels below those produced by air pollution policies alone-e.g., China sulfur emissions fall an additional 45-85 % by 2050. None of the models actively manage non-Kyoto forcing for climate implications. Nonetheless, non-Kyoto forcing may be influencing mitigation results, including allowable carbon dioxide emissions, and further evaluation is merited.

Published
2014

14. Bioenergy in energy transformation and climate management

Author

Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., Weyant, J., Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., and Weyant, J.

Abstract

This study explores the importance of bioenergy to potential future energy transformation and climate change management. Using a large inter-model comparison of 15 models, we comprehensively characterize and analyze future dependence on, and the value of, bioenergy in achieving potential long-run climate objectives. Model scenarios project, by 2050, bioenergy growth of 1 to 10 % per annum reaching 1 to 35 % of global primary energy, and by 2100, bioenergy becoming 10 to 50 % of global primary energy. Non-OECD regions are projected to be the dominant suppliers of biomass, as well as consumers, with up to 35 % of regional electricity from biopower by 2050, and up to 70 % of regional liquid fuels from biofuels by 2050. Bioenergy is found to be valuable to many models with significant implications for mitigation and macroeconomic costs of climate policies. The availability of bioenergy, in particular biomass with carbon dioxide capture and storage (BECCS), notably affects the cost-effective global emissions trajectory for climate management by accommodating prolonged near-term use of fossil fuels, but with potential implications for climate outcomes. Finally, we find that models cost-effectively trade-off land carbon and nitrous oxide emissions for the long-run climate change management benefits of bioenergy. The results suggest opportunities, but also imply challenges. Overall, further evaluation of the viability of large-scale global bioenergy is merited.

Published
2014

16. Bioenergy in energy transformation and climate management

Author

Environmental Sciences, Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., Weyant, J., Environmental Sciences, Rose, S.K., Kriegler, E., Bibas, R., Calvin, K., Popp, A., van Vuuren, D.P., and Weyant, J.

Published
2014

18. Energy efficiency potentials for global climate change mitigation

Author

Sugiyama, M., Akashi, O., Wada, K., Kanudia, A., Li, Jun, Weyant, J., Sugiyama, M., Akashi, O., Wada, K., Kanudia, A., Li, Jun, and Weyant, J.

Abstract

Energy efficiency is one of the main options for mitigating climate change. An accurate representation of various mechanisms of energy efficiency is vital for the assessment of its realistic potential. Results of a questionnaire show that the EMF27 models collectively represent known channels of energy efficiency reasonably well, addressing issues of energy efficiency barriers and rebound effects. The majority of models, including general equilibrium models, have an explicit end-use representation for the transportation sector. All participating partial equilibrium models have some capability of reflecting the actual market behavior of consumers and firms. The EMF27 results show that energy intensity declines faster under climate policy than under a baseline scenario. With a climate policy roughly consistent with a global warming of two degrees, the median annual improvement rate of energy intensity for 2010–2030 reaches 2.3 % per year [with a full model range of 1.3–2.9 %/yr], much faster than the historical rate of 1.3 % per year. The improvement rate increases further if technology is constrained. The results suggest that the target of the United Nations’ “Sustainable Energy for All” initiative is consistent with the 2-degree climate change target, as long as there are no technology constraints. The rate of energy intensity decline varies significantly across models, with larger variations at the regional and sectoral levels. Decomposition of the transportation sector down to a service level for a subset of models reveals that to achieve energy efficiency, a general equilibrium model tends to reduce service demands while partial equilibrium models favor technical substitution.

Published
2014

20. Vulnerability to climate change and reasons for concern: a synthesis

Author

Smith, J.B., Schellnhuber, H.J., Monirul Qader Mirza, M., Fankhauser, S., Leemans, R., Erda, L., Ogallo, L., Pittock, B., Richels, R., Rosenzweig, C., Safriel, U., Tol, R.S.J., Weyant, J., and Yohe, G.

Subjects
Plant Production Systems, Plantaardige Productiesystemen, Life Science, PE&RC
Published
2001

21. Regional energy system variation in global models: Results from the Asian Modeling Exercise scenarios

Author

Clarke, L., Krey, V., Weyant, J., Chaturvedi, V., Clarke, L., Krey, V., Weyant, J., and Chaturvedi, V.

Abstract

This paper explores the variation in Asian energy systems in the energy-economic and integrated assessment models participating in the Asian Modeling Exercise (AME). Consistent with previous studies, there is substantial variation in energy system configurations across the AME scenarios, a reflection of the inherent uncertainty in how countries might undertake climate mitigation and associated energy system decisions. The paper also explores the degree to which scenarios from individual models retain regional differences in energy system configurations over time. The scenarios are mixed in this regard. Some models tend to converge toward common energy systems that focus on the utilization of a common set of options across regions, while others retain strong differences among regions. A review of modeling approaches indicates that the participating models are constructed to represent many, but not all, of the real-world forces leading to regional variation. The models do not have the capability to represent some of the most important social and political factors that influence energy technology decision making, raising important questions about how decision makers should interpret regional variations across models, particularly over the medium to long term.

Published
2012

22. A Special issue on the RCPs

Author

van Vuuren, D.P., Edmonds, J., Kainuma, M., Riahi, K., Weyant, J., van Vuuren, D.P., Edmonds, J., Kainuma, M., Riahi, K., and Weyant, J.

Published
2011

23. A Special issue on the RCPs

Author

Environmental Sciences, Section Environmental Sciences, van Vuuren, D.P., Edmonds, J., Kainuma, M., Riahi, K., Weyant, J., Environmental Sciences, Section Environmental Sciences, van Vuuren, D.P., Edmonds, J., Kainuma, M., Riahi, K., and Weyant, J.

Published
2011

26. Multi-gas scenarios to stabilize radiative forcing

Author

Environmental risk management, Options for a sustainable energy supply, The demand for energy and materials, Dep Scheikunde, van Vuuren, D.P., Weyant, J., de la Chesnaye, F., Environmental risk management, Options for a sustainable energy supply, The demand for energy and materials, Dep Scheikunde, van Vuuren, D.P., Weyant, J., and de la Chesnaye, F.

Published
2006

28. Evaluation of conventional power systems

Author

Smith, K. R, Weyant, J, and Holdren, J. P

Subjects
Energy Production And Conversion
Abstract

The technical, economic, and environmental characteristics of (thermal, nonsolar) electric power plants are reviewed. The fuel cycle, from extraction of new fuel to final waste management, is included. Emphasis is placed on the fossil fuel and nuclear technologies.

Published
1975

29. A brief history of the international energy workshop

Author

Weyant, J., Schrattenholzer, L., Weyant, J., and Schrattenholzer, L.

Abstract

The International Energy Workshop (IEW) is an informal network of analysts concerned with international energy issues. Its goals are to compare energy projections and to understand the reasons for diverging views of future developments. The main activity of the IEW is iterative polling of energy consumption, production, and trade. The poll includes questions on crude oil prices and GDP in order to identify major determinants of energy demand and supply. The environmental impact of energy use is reflected in the IEW Poll to the extent that it includes items on energy-related carbon emissions. The poll results and other topics of current interest are discussed at annual meetings attended by many authors of energy projections and other individuals involved in the wide field of energy. The original idea to establish this international network was introduced by Alan Manne; Manne organized the first IEW meeting in December 1981 and has served as its senior co-director since then.

Published
1999

30. Energy and Industry

Author

Rayner, S., Malone, E.L., Weyant, J., Yanigisawa, Y., Bashmakov, I., Chu, C., Jung, T.-Y., Nakicenovic, N., Rosa, L.P., Scott, M.J., Shukla, P.R., Yamaji, K., Rayner, S., Malone, E.L., Weyant, J., Yanigisawa, Y., Bashmakov, I., Chu, C., Jung, T.-Y., Nakicenovic, N., Rosa, L.P., Scott, M.J., Shukla, P.R., and Yamaji, K.

Published
1998

33. Influence of Feeding DEAE Sephadex on Growth, Lactation and Lipid Utilization in the Rat1

Author

Dryden, L.P., Bitman, J., Wrenn, T.R., and Weyant, J.

Abstract

The effects on the rat of incorporating in the ration DEAE Sephadex, a bile acid sequestrant which is not absorbed from or degraded in the intestinal tract, were studied. Diets containing 0.9% or 15% fat, as well as a hypercholesterolemic diet, were employed. The fecal fat (ether extract) was doubled on the 0.9% fat diet and the hypercholesterolemic diet and increased by 4 to 5 times on the 15% fat diet. The serum cholesterol levels were not affected on the normal diets but DEAE Sephadex prevented the elevated levels observed on the hypercholesterolemic control diet. In none of the diets did DEAE Sephadex affect 4-week weight gains of weanling young significantly but weight gain per calorie consumed was lowered in males fed the 15% fat ration, presumably due to a loss of dietary calories in the feces. The body weights of young of mothers fed DEAE Sephadex in the 0.9% fat ration were depressed about 7 to 8% by 15 days of age. The young from control mothers contained about 25% more fat and about 10% more nonfat solids in their bodies.

Published
1973
Full Text
View/download PDF

34. The Potential Role of Technological Modifications and Alternative Fuels in Alleviating Air Force Energy Problems.

Author

RAND CORP SANTA MONICA CALIF, Gebman,J R, Stanley,W L, Weyant,J P, Mikolowsky,W T, RAND CORP SANTA MONICA CALIF, Gebman,J R, Stanley,W L, Weyant,J P, and Mikolowsky,W T

Abstract

This report examines short- and long-term measures to reduce the consumption of petroleum jet fuels by the Air Force. Engine retrofits and aerodynamic modifications to existing aircraft can save significant quantities of jet fuel; however, savings in fuel expenditures are not enough to offset high initial costs of engine retrofits. If accomplished early in an aircraft's life cycle, relatively lower costs of modest aerodynamic modifications may be recoverable through savings in fuel expenditures. Synthetic JP fuels derived from oil shale or coal appear to be the most attractive future alternatives to petroleum jet fuels. If the foreign oil cartel maintains its price-setting effectiveness and synthetic fuels industry develops in the United States, development of an Air Force capability to interchangeable use fuels derived from crude oil, oil shale, or coal could be economically attractive and enhance the Air Force's position in the jet fuel marketplace. (Author)

Published
1976

35. An Assessment of Selected Models Used for Evaluating Military Research and Development Projects.

Author

RAND CORP SANTA MONICA CALIF, Ojdana,E. S. , Jr., Weyant,J. P., RAND CORP SANTA MONICA CALIF, Ojdana,E. S. , Jr., and Weyant,J. P.

Abstract

Several large computer-based R and D planning models, developed over the past few years, are examined to determine why such models have not been adopted for full and regular use by R and D managers. The models consider, in various degrees, three major tasks of the R and D planning process: (1) identifying and ranking organizational objectives (such as desired operational capabilities), and (2) evaluating candidate R and D projects based on their contribution toward achieving the objectives, and (3) selecting preferred projects and allocating resources among them. Four models were selected for detailed analysis.

Published
1976

36. Summary for policymakers

Author

Banuri, T., Barker, T., Bashmakov, I., Blok, K., Bouille, D., Christ, R., Davidson, O., Edmonds, J., Gregory, K., Grubb, M., Kirsten Halsnæs, Heller, T., C Hourcade, J., Jepma, C., Kauppi, P., Markandya, A., Metz, B., Moomaw, W., Moreira, J. R., Morita, T., Nakicenovic, N., Price, L., Richels, R., Robinson, J., Rogner, H. H., Sathaye, J., Sedjo, R., Shukla, P., Srivastava, L., Swart, R., Toth, F., and Weyant, J.

37. Technical summary

Author

Banuri, T., Barker, T., Bashmakov, I., Blok, K., Christensen, John M., Davidson, O., Grubb, M., Kirsten Halsnæs, Jepma, C., Jochem, E., Kauppi, P., Krankina, O., Krupnick, A., Kuijpers, L., Kverndokk, S., Markandya, A., Metz, B., Moomaw, W., Moreira, J. R., Morita, T., Pan, J., Price, L., Richels, R., Robinson, J., Sathaye, J., Swart, R., Tanaka, K., Taniguchi, T., Toth, F., Taylor, T., and Weyant, J.

42. Predictive processing in depression : Increased prediction error following negative valence contexts and influence of recent mood-congruent yet irrelevant experiences

Author

Ramos Grille, Irene, Weyant, Jennifer, Wormwood, Jolie, Robles, Marta, Vallès, Vicenç, Camprodon, Joan A., Chanes, Lorena, Harvard Medical School, Universitat Autònoma de Barcelona. Institut de Neurociències, Catalunya. Programa Serra Hunter, [Ramos-Grille I] Departament de Psicologia Clínica i de la Salut, Universitat Autònoma de Barcelona, Catalunya, Spain. Servei de Salut Mental, Hospital de Terrassa, Consorci Sanitari de Terrassa, Terrassa, Spain. [Weyant J, Robles M] Department of Clinical and Health Psychology, Universitat Autònoma de Barcelona, Catalunya, Spain. [Wormwood JB] University of New Hampshire, Durham, NH, USA. [Vallès V] Servei de Salut Mental, Hospital de Terrassa, Consorci Sanitari de Terrassa, Terrassa, Spain. [Camprodon JA] Division of Neuropsychiatry, Massachusetts General Hospital, Harvard Medical School, Boston, MA, USA, and Consorci Sanitari de Terrassa

Subjects
Predictive coding, Emotion, diagnóstico::técnicas y procedimientos diagnósticos::exploración física::expresión facial [TÉCNICAS Y EQUIPOS ANALÍTICOS, DIAGNÓSTICOS Y TERAPÉUTICOS], Depression, Emotions, Happiness, Predictive processing, Emocions, Expressió facial, conducta y mecanismos de la conducta::emociones [PSIQUIATRÍA Y PSICOLOGÍA], Diagnosis::Diagnostic Techniques and Procedures::Physical Examination::Facial Expression [ANALYTICAL, DIAGNOSTIC AND THERAPEUTIC TECHNIQUES, AND EQUIPMENT], Facial expressions, Behavior and Behavior Mechanisms::Emotions [PSYCHIATRY AND PSYCHOLOGY], Facial Expression, Psychiatry and Mental health, Clinical Psychology, Affect, conducta y mecanismos de la conducta::conducta::síntomas conductuales::depresión [PSIQUIATRÍA Y PSICOLOGÍA], Humans, Depressió psíquica, Behavior and Behavior Mechanisms::Behavior::Behavioral Symptoms::Depression [PSYCHIATRY AND PSYCHOLOGY]
Abstract

Depressió psíquica; Emocions; Expressió facial Depression; Emotions; Facial Expression Depresión; Emociones; Expresión facial Background: Novel theoretical models of depression have recently emerged based on an influential new perspective in neuroscience known as predictive processing. In these models, depression may be understood as an imbalance of predictive signals in the brain; more specifically, a dominance of predictions leading to a relative insensitivity to prediction error. Despite these important theoretical advances, empirical evidence remains limited, and how expectations are generated and used dynamically in individuals with depression remains largely unexplored. Methods: In this study, we induced facial expression predictions using emotion contexts in 34 individuals with depression and 34 healthy controls. Results: Compared to controls, individuals with depression perceived displayed facial expressions as less similar to their expectations (i.e., increased difference between expectations and actual sensory input) following contexts evoking negative valence emotions, indicating that depressed individuals have increased prediction error in such contexts. This effect was amplified by recent mood-congruent yet irrelevant experiences. Limitations: The clinical sample included participants with comorbid psychopathology and taking medication. Additionally, the two groups were not evaluated in the same setting, and only three emotion categories (fear, sadness, and happiness) were explored. Conclusions: Our results shed light on potential mechanisms underlying processing abnormalities regarding negative information, which has been consistently reported in depression, and may be a relevant point of departure for exploring transdiagnostic vulnerability to mental illness. Our data also has the potential to improve clinical practice through the implementation of novel diagnostic and therapeutic tools based on the assessment and modulation of predictive signals.

Published
2022

50. Net-Zero CO 2 by 2050 Scenarios for the United States in the Energy Modeling Forum 37 Study.

Author

Browning M, McFarland J, Bistline J, Boyd G, Muratori M, Binsted M, Harris C, Mai T, Blanford G, Edmonds J, Fawcett AA, Kaplan O, and Weyant J

Abstract

The Energy Modeling Forum (EMF) 37 study on deep decarbonization and high electrification analyzed a set of scenarios that achieve economy-wide net-zero carbon dioxide (CO 2 ) emissions in North America by mid-century, exploring the implications of different technology evolutions, policies, and behavioral assumptions affecting energy supply and demand. For this paper, 16 modeling teams reported resulting emissions projections, energy system evolution, and economic activity. This paper provides an overview of the study, documents the scenario design, provides a roadmap for complementary forthcoming papers from this study, and offers an initial summary and comparison of results for net-zero CO 2 by 2050 scenarios in the United States. We compare various outcomes across models and scenarios, such as emissions, energy use, fuel mix evolution, and technology adoption. Despite disparate model structure and sources for input assumptions, there is broad agreement in energy system trends across models towards deep decarbonization of the electricity sector coupled with increased end-use electrification of buildings, transportation, and to a lesser extent industry. All models deploy negative emissions technologies (e.g., direct air capture and bioenergy with carbon capture and storage) in addition to land sinks to achieve net-zero CO 2 emissions. Important differences emerged in the results, showing divergent pathways among end-use sectors with deep electrification and grid decarbonization as necessary but not sufficient conditions to achieve net zero. These differences will be explored in the papers complementing this study to inform efforts to reach net-zero emissions and future research needs.

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results