However, existing literature rarely examines the effects of carbon emission reduction policies based on the perspective of energy technology progress for both short-term economic fluctuations and

Some studies argue that the promotion of low-carbon technology and PAI hydropower utilization are the most effective strategies for energy conservation, emission reduction, and cost minimization [ [1, 135, 136]] since it

In this situation, most ICTs are cost-effective: in 2025, 73.6% of the energy conservation and 71.2% of emission reduction potentials are cost-effective in these three industries, while in 2030 and 2035, the cost-effective energy conservation potential almost

Thus, developing technologies for carbon emission reduction and molten slag waste heat efficient recovery is of great significance for establishing a circular wastes network system in steel industry. Currently, molten slag water quenching process is adopted for slag resourceful disposal, neglecting waste heat recycling and environmental

The results show that if emissions peak in 2025, the carbon neutrality goal calls for a 45–62% electrification rate, 47–78% renewable energy in primary energy

In 2035, 33 energy conservation technologies and 34 abatement technologies apply in practice are economically feasible, achieving 69.05–70.14% of the energy conservation potential and 79.03–81.58% of the

Advances on Application of Modern Energy Storage Technologies Abstract: To combat the escalating environmental concerns and particularly the increased CO 2

Power electronic technologies play a vital role in efficient energy conversion and utilization, global energy conservation, environmental pollution control, and global warming reduction. A few cases prove the energy-conserving opportunities provided by power electronic systems.

However, previous studies mainly focused on renewable energy technologies, such as wind power, solar photovoltaic (PV), and energy storage (Samadi, 2018). One recent study considered endogenous technology learning in modeling the diffusion of carbon capture, utilization and storage (CCUS) technology attached to coal

Its remit is responding to climate change, conserving energy, and reducing emissions, and all provinces, autonomous regions, and municipalities directly under the central government (PARMs) have set up corresponding groups. In April 2018, China adjusted the functions of relevant government departments, and put the newly established Ministry of

Power-to-gas offers a new path for carbon emission reduction by integrating renewable energy hydrogen with traditional chemical process. However, its application is limited by the product fluctuation and high cost of green hydrogen.To further improve the level of energy conservation and emission reduction, this research

Whether China could meet its 2030 energy conservation and emission reduction goals depends on whether energy efficiency serves as the most important measure of carbon emission reduction. This study has explored how industrial sector could achieve the goals on the premise of maintaining certain economic growth from the

Energy conservation and emission reduction differ tremendously across provinces due to different scale of coal power capacity and technology and age structure of EGUs. As shown in Fig. 7, Eastern China has the largest amount of cumulative energy conservation (228 million tce) and emission reduction (643 million tCO 2 ), or

Promoting energy conservation and emission reduction (ECER) technologies is a critical measure to tackle this environmental problem (Shao et al., 2020). The Chinese government has issued a series of advanced technology catalogs for energy-intensive industries in the past a few years (Wang and Chen, 2015; NDRC, 2019; MIIT,

We investigate the potential of energy storage technologies to reduce renewable curtailment and CO2 emissions in

Electricity storage is a key technology for the long-term decarbonisation of power grids by facilitating the effective integration of variable

TW of solar and wind power, 1.5–2.7 PWh of energy storage usage and 64–1,649 2050 is estimated to decrease by 13–21% due to energy conservation technology improvements, building envelope

In terms of indicator measurement, existing studies have often used energy efficiency to measure energy conservation and environmental efficiency to measure emission reduction [9], [10]. Energy efficiency and emission reduction have been discussed as two independent indicators [11], and a less comprehensive analysis has

Li, L. et al. Energy conservation and emission reduction policies for the electric power industry in China. Energy Policy 39 (6), 3669–3679 (2011). Article Google Scholar

China''s State Council has released an action plan for energy conservation and carbon reduction for 2024-25, aiming to reduce energy consumption and carbon dioxide emissions per unit of GDP by approximately 2.5 percent and 3.9 percent, respectively, in 2024. Energy consumption per unit of added value of industrial

Section 3 is the basic models and assumptions; Section 4 analyzes the energy conservation and emission reduction effect of auto enterprises with three different organizational structures under the dual-credit policy; Section 5 is the sensitivity analysis of6 is the

The significance of accurately assessing the influence of digital economy growth upon reducing emission of carbon in the context of worldwide climate governance cannot be overstated. This is crucial in encouraging low-carbon economic advancement at national level, achieving carbon peak and neutrality as soon as possible, and creating a

Minimizing energy consumption significantly reduces NOx emissions, while controlling PM emissions reduce HM emissions. Abstract Industrial Energy Conservation and Emission Reduction (ECER) management is challenging due to the large number of objectives involved, and the complex synergies/conflicts amongst them.

Discussed energy-conservation and emission-reduction technologies for data centers. Summarized the operation characteristics and energy consumption of data

Discussed energy-conservation and emission-reduction technologies for data centers. Summarized the operation characteristics and energy consumption of data centers. Analyzed the implementation of energy-saving technology in 20 typical data center cases. Explored the nine key challenges for the future low-carbon development of data centers.

To address these challenges, we have designed, configured and implemented a robust persuasive feedback support system (PFSS) to facilitate energy conservation and carbon emission reduction. This paper presents the complete architecture of the proposed PFSS, its system interface and the real time measurement

Selecting the panel data for 280 Chinese cities during 2006–2019, we take the energy saving and emission reduction (ESER) demonstration city policy as a quasi

Energy storage is a more sustainable choice to meet net-zero carbon foot print and decarbonization of the environment in the pursuit of an energy independent future, green energy transition, and up

To accomplish profound decarbonization, exemplified by the ambitious Net-Zero Emissions (NZE) goal [3], extensive adoption of renewable energy sources

The State Council printed and distributed the Comprehensive Working Programme on Energy Conservation and Emissions Reduction for the Twelfth Five-Year Plan Period (2011-2015) (No.[2011]26 document issued by the State Council, hereinafter referred to as the

Finally, this study implements a time-of-use (TOU) pricing strategy through the demand response function, and obtains an optimization plan for energy conservation and CO 2 emission reduction. Results show that in the combined strategy, on a typical day in summer, energy consumption, carbon emissions and energy

For example, an improvement in energy intensity in the non-power industrial sector could help reduce CO 2 emissions by 18–50% in China, along with a reduction of SO 2, NO x and particulate

In the present paper, a comprehensive evaluation of the performance of energy conservation and CO 2 emission reduction policies in China during the 11th FYP period (2005–2010) is conducted within an integrated assessment framework (see Fig. 1), using the IDA method and policy analysis, including a review of energy-saving policies,

Technical emission reduction measures mainly include: developing energy-saving and environmentally friendly vehicles, adopting new energy-saving processes, new technologies, new equipment, and new materials within the transportation industry, or forcibly

Thermal energy storage to improve transcritical CO 2 heat pump performance; (4) Preventive maintenance of building thermal system based on thermo-economic analysis; (5) Industrial policymaking on the economics of low-emission technologies; (6) 2.

AI is the core explanatory variable in this study. Referencing Guoda and Wenjing (2021), reports such as the National Innovation Index and Global Innovation Index, and relevant policies such as Made in China 2025, the entropy method and logarithms are used to construct a dynamic and comprehensive AI development indicator system (Table

Keywords: household carbon emissions, energy conservation and emission reduction policies, fixed-effect model, new energy public buses, western areas Citation: Luo J, Yang J, Wan S, Zhao J and Liang J (2023) Can

To reduce the energy consumption of data centers and promote smart, sustainable, and low-carbon city development, this study analyzes the energy

1. Introduction As the world''s largest energy consumer and pollutants emitter, the industrial sector has been facing great pressure of energy conservation and emission reduction (ECER) (Cao et al., 2020b).As one of the most important industries in China''s industrial