The integration of hydrogenation and carbon capture utilisation and storage technology: A potential low‐carbon approach to chemical synthesis in China

Zhang, Lingyun; Sun, Nannan; Wang, Minquan; Wu, Tao; Wei, Wei; Pang, Cheng Heng

doi:10.1002/er.7076

Cited by 20 publications

(4 citation statements)

References 76 publications

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“…Moreover, China Petroleum and Chemical Corporation has built a 1 million tons/year CCUS (coal gas tail gas CO2 capture + EOR) in the Qilu Petrochemical-Shengli Oilfield. This demonstration project is the first million-ton CCUS project and the largest full-process CCUS project in China (Figure 6) [39][40][41][42][43][44][45][46][47][48]. (3) Large-scale coal bases have formed concentrated areas for the development and use of coal resources in China, which will help the state to enhance their macro-control over coal resources, to adjust and optimize the coal industrial structure, and to strengthen the comprehensive use of coal resources.…”

Section: Ccus Trends and Objectivesmentioning

confidence: 99%

A Habitable Earth and Carbon Neutrality: Mission and Challenges Facing Resources and the Environment in China—An Overview

Zhang

Yan

et al. 2023

IJERPH

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Since the Industrial Revolution, the impacts of human activities have changed the global climate system, and climate warming has had rapid and widespread effects on the planet. At present, the world is experiencing a series of natural disasters, such as climate change, environmental pollution, biodiversity loss, and sea level rise, which pose a serious threat to the livability of the Earth. An international consensus has been reached that achieving carbon neutrality is the key to tackling climate change; it is also crucial to building a livable planet. To achieve carbon neutrality, energy is the main aspect, for which technology regarding resources and the environment is essential. In this context, we collected data, performed an in-depth analysis of the basic and structural characteristics of the development of the coal industry and environmental remediation, studied and judged the trends in regional economic development and demand growth, and closely examined the requirements of China’s development strategy, which focuses on the ideas of carbon peak and carbon neutralization in line with local development trends and economic system characteristics. We must build a livable Earth, promote the green and low-carbon transformation of regional energy, promote high-quality economic development, and ensure the safe supply of energy.

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Section: Ccus Trends and Objectivesmentioning

confidence: 99%

A Habitable Earth and Carbon Neutrality: Mission and Challenges Facing Resources and the Environment in China—An Overview

Zhang

Yan

et al. 2023

IJERPH

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“…Maeda H. Murakami S applied the fuzzy evaluation method to the decision selection problem and analysed the case [9]. SattyT L et al respectively studied the practical application of Analytic Hierarchy Process in investment decision-making and conducted extended research [10] Athanasios evaluated the technical, economic, and feasibility of power plant projects using the AHP analysis method [11]. Charoenngam C and Yeh C. Y conducted a systematic analysis of the risks in the investment and construction evaluation of hydropower projects [12].…”

Section: Introductionmentioning

confidence: 99%

Evaluating the Feasibility of Low-Carbon Technology in the Sustainable Economic Development of Electricity Using Generative Adversarial Networks

Wang

2024

J. Phys.: Conf. Ser.

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Electricity occupies a central position in energy strategy, and the low-carbon development of the power industry is an important guarantee for achieving sustainable development and carbon dioxide reduction goals. Orderly carrying out low-carbon technology transformation and innovation in electricity, ultimately achieving the goal of sustainable development of the power industry, has strong practical significance. Therefore, this article conducts a feasibility analysis of using generative adversarial networks to evaluate low-carbon technologies in the sustainable economic development of electricity. Firstly, the background of the theory of technological and economic evaluation was analysed and used as a theoretical basis. Secondly, an adversarial network was generated for the study of low-carbon emissions in the power industry, and an evaluation system for low-carbon technology in the sustainable economic development of electricity was constructed. The study showed that the preliminary economic evaluation index system and comprehensive benefit evaluation model for low-carbon technology transformation projects in electricity established in this article have feasibility and reliability for systematic analysis and evaluation of actual projects.

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“…[ 3 ] The second involves hydrogen production from industrial byproduct gas represented by coke oven gas, chlor‐alkali tail gas, and propane dehydrogenation. [ 4 ] The third and most important route is the electrochemical water splitting technique, [ 5 ] an effective way to produce “green hydrogen” with high purity. Two half‐reactions, cathodic hydrogen evolution reaction (HER) and anodic oxygen evolution reaction (OER), constitute the water splitting devices with high conversion efficiency (≈60%) and high suitability toward renewable intermittent energy (solar, wind, etc.).…”

Section: Introductionmentioning

confidence: 99%

Electrocatalytic Mechanism of Defect in Spinels for Water and Organics Oxidation

Liu

Kong

Cui

et al. 2023

Small

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Spinels display promising electrocatalytic ability for oxygen evolution reaction (OER) and organics oxidation reaction because of flexible structure, tunable component, and multifold valence. Unfortunately, limited exposure of active sites, poor electronic conductivity, and low intrinsic ability make the electrocatalytic performance of spinels unsatisfactory. Defect engineering is an effective method to enhance the intrinsic ability of electrocatalysts. Herein, the recent advances in defect spinels for OER and organics electrooxidation are reviewed. The defect types that exist in spinels are first introduced. Then the catalytic mechanism and dynamic evolution of defect spinels during the electrochemical process are summarized in detail. Finally, the challenges of defect spinel electrocatalysts are brought up. This review aims to deepen the understanding about the role and evolution of defects in spinel for electrochemical water/organics oxidation and provide a significant reference for the design of efficient defect spinel electrocatalysts.

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The integration of hydrogenation and carbon capture utilisation and storage technology: A potential low‐carbon approach to chemical synthesis in China

Cited by 20 publications

References 76 publications

A Habitable Earth and Carbon Neutrality: Mission and Challenges Facing Resources and the Environment in China—An Overview

A Habitable Earth and Carbon Neutrality: Mission and Challenges Facing Resources and the Environment in China—An Overview

Evaluating the Feasibility of Low-Carbon Technology in the Sustainable Economic Development of Electricity Using Generative Adversarial Networks

Electrocatalytic Mechanism of Defect in Spinels for Water and Organics Oxidation

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