Taiwan's GHG mitigation potentials and costs: An evaluation with the MARKAL model

Tsai, Miao-Shan; Chang, Ssu-Li

doi:10.1016/j.rser.2012.12.007

Cited by 12 publications

(3 citation statements)

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“…Literature has also examined the CO 2 emissions at national and regional levels with a production perspective (Mi et al 2016 ) and also focused on different sectors in production, including the textile industry in China (Lin and Moubarak 2013 ); cement industry in China (Xu et al 2012 ); transportation, construction, and production and electricity sectors in Taiwan (Tsai and Chang 2013 ); and 43 sectors in China (Yu et al 2016 ). Despite all of these sectors, the major source of energy consumption and CO 2 emissions is household consumption, households generate direct and indirect demands, and all the sectors work to fulfil these demands and becomes a source of CO 2 emissions.…”

Section: Literature Reviewmentioning

confidence: 99%

The cultural differences in the effects of carbon emissions — an EKC analysis

Arshed

Hameed

Saher

et al. 2022

Environ Sci Pollut Res

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Section: Literature Reviewmentioning

confidence: 99%

The cultural differences in the effects of carbon emissions — an EKC analysis

Arshed

Hameed

Saher

et al. 2022

Environ Sci Pollut Res

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“…With 68% of all the publications (Figure 9), energy matrix-focused publications have a variety of applications, such as when analyzing the overall economy. Behavior analysis of the transport sector (Daly et al, 2014), endogenous technological learning in the electricity sector (Huang, Chen, & Anandarajah, 2017), greenhouse gases emissions mitigation (Chiodi et al, 2013;Criqui et al, 2015;McCollum et al, 2012;Tsai & Chang, 2013;van Vliet et al, 2012), and pollution regulation (Gielen & Changhong, 2001;Pan et al, 2013;Proost et al, 2000;Rafaj & Kypreos, 2007) are just a few examples of model applications considering the entire energy matrix.…”

Section: Energy Sourcementioning

confidence: 99%

Energy systems modeling: Trends in research publication

Machado¹,

Mouette

Villanueva

et al. 2018

WIREs Energy & Environment

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This study analyzes 34 tools through 442 publications on energy systems modeling, aiming to identify the most relevant trends in research and the research gaps in energy planning. For detecting these gaps, the publications analyzed were categorized based on pre-defined criteria regarding geographical coverage, sectoral coverage, time horizon, analytical approach and energy source. The categories were designed to be a broad classification with the appropriate level of information required to differentiate between models. The results show that there is a lack of studies concerned with better understanding the energy systems in Africa and South America. Environmentally-oriented publications account for 50.4% of all the publications studied. Modelers have thus shown a greater interest in studying issues related to climate change mitigation than in other areas of the energy chain.

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“…Sarıca and Tyner modified the standard US MARKAL model including corn stover and miscanthus feedstocks and obtained new cost information for biochemical and thermochemical conversion technologies to estimate the impacts of different policy and technology choice scenarios [11]. Tsai et al analyzed different technology-based scenarios to get an emission mitigation plan for the industrial sectors of Taiwan [12]. Dedinec et al developed a MARKAL model for Macedonia as a basis for setting the national mitigation contributions and formulating the most appropriate national mitigation action plan [13].…”

Section: Introductionmentioning

confidence: 99%

An analysis of centennial wind power targets of Turkey

Sulukan¹

2018

Turk J Elec Eng & Comp Sci

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Wind power has become one of the cost-effective options for improving the energy mix, while the wind farm installations reach higher shares by new capacity additions in Turkey, similar to many other countries, in order to support the sustainable development targets. Various methodologies are implemented and applied for planning and optimizing energy systems of countries, taking into consideration the energy, economy, and ecology aspects as a whole. The objective of this paper is to demonstrate the implications of "2023 energy targets" policy in terms of wind power. A futuristic scenario was tailored and applied to a comprehensive energy model for the energy system of Turkey. The official wind energy vision and goal of Turkey were analyzed by applying a scenario based on 20,000 MW wind power capacity installation by the year 2023. The results indicated that, if applied, this action will increase the share of wind power utilization to the level of 16% in the total renewables while the installed wind capacity will reach 18%. Finally, the total cost of this strategic target which doubles the installed capacity and electricity generation by wind power, including the respective investment costs and subsidizations results, were calculated as $24.78 billion on the analysis horizon.

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Taiwan's GHG mitigation potentials and costs: An evaluation with the MARKAL model

Cited by 12 publications

References 1 publication

The cultural differences in the effects of carbon emissions — an EKC analysis

The cultural differences in the effects of carbon emissions — an EKC analysis

Energy systems modeling: Trends in research publication

An analysis of centennial wind power targets of Turkey

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