核能利用技术动向与先进性
市场调查报告书
商品编码
1176372

核能利用技术动向与先进性

Technology Trends and Advancements in Nuclear Energy Utilization

出版日期: | 出版商: Frost & Sullivan | 英文 50 Pages | 商品交期: 最快1-2个工作天内

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简介目录

在全球范围内,低碳能源对于应对气候变化和确保遵守巴黎气候峰会的宣言(尤其是碳排放净零目标)变得越来越重要。 核能可以发挥重要作用,因为它具有高能量密度、与可再生能源相比占地面积小以及与化石燃料发电厂相比具有成本竞争力。 然而,长期以来人们一直担心核电站的安全问题。 因此,该行业继续对工厂设计进行更改以提高反应堆安全性。

本报告探讨了核电使用方面的技术趋势和进步,提供了市场概览、战略要务和增长机会。

内容

战略要务

  • 为什么增长越来越难?
  • 战略要务
  • 三大战略要务对核工业的影响
  • 增长机会加速增长管道引擎

增长机会分析

  • 分析范围
  • 细分
  • 增长动力
  • 抑制增长的因素

技术快照

核景观:关键创新

专利态势

  • 美国领导核裂变研究和开发活动

成长机会

  • 增长机会 1:对低排放氢气需求的增长推动了第 4 代反应堆的发展
  • 增长机会 2:工业脱碳和电气化的需求支持小型模块化反应堆的部署
  • 增长机会 3:核电确保当前地缘政治气候下的能源安全和能源独立

附录

下一步

简介目录
Product Code: DA6B

Next-generation Nuclear Technologies Promote Carbon Neutrality and Hydrogen Economy Growth Opportunities

Globally, low-carbon energy resources are increasingly critical to combat climate change and ensure adherence to the Paris Climate Summit declarations, especially net zero carbon emissions targets. Nuclear energy can play a critical role due to its high energy density, low land footprint compared to renewable energy sources, and cost competitiveness with fossil-fueled power plants. However, there have long been concerns surrounding the safety of nuclear power plants. This has prompted industry players to make continuous changes in plant design to enhance the safety profile of reactors. There are also significant R&D efforts in plant miniaturization, notably the development of small modular reactors, to make nuclear energy a key tool in decarbonizing the energy and industrial sector. The nuclear industry is also gearing up for its next growth phase by developing Generation IV reactors, which involve changes in the working fluid, coolants, operating temperatures, and power output, among others.

With the recent downturn in geopolitical stability in Europe, high natural gas prices, and efforts to ensure energy security, nuclear power is set to record strong growth in upcoming years. The study describes the major technology trends, growth drivers, and restraints in next-generation nuclear energy technologies. It also offers a detailed growth opportunity analysis and explores the key stakeholders developing advanced nuclear plant designs, including Generation III - III+ and Generation IV reactors. The study analyzes the global patent landscape for nuclear fission technologies and highlights the main patent owners/applicants and major research areas.

Table of Contents

Strategic Imperatives

  • Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives on the Nuclear Power Industry
  • Growth Opportunities Fuel the Growth Pipeline Engine™
  • Research Methodology

Growth Opportunity Analysis

  • Scope of Analysis
  • Segmentation
  • Growth Drivers
  • Growth Restraints

Technology Snapshot

  • Nuclear Fission-Technology Introduction and Attributes
  • Advanced Nuclear Power Reactors
  • Nuclear Fission Process
  • The Most Advanced Nuclear Reactor Designs are Based on PWR and BWR
  • Advanced Nuclear Reactors Represent the Next Stage in the Deployment of Fission Reactors
  • SMRs Can be a Game Changer in Widening Nuclear Power Application Scope
  • Generation IV Reactors Will Gain Traction Beyond 2030
  • Cost Breakdown of Nuclear Power Plants
  • Generating Nuclear Power is Cheaper Than Coal and Combined cycle Plants
  • Kazakhstan is the Largest Mined Uranium Producer, While France and China Have the Highest Enrichment Capacity
  • Nuclear Waste Management is a Crucial Part of the Nuclear Fuel Cycle

Nuclear Energy Landscape: Key Innovations

  • Superior Safety and Cost Savings with Next-generation ABWR
  • Advanced PWR Offering Superior Thermal Efficiency and Cooling System
  • Stable Salt Fast Reactor with the Capacity to Burn Waste Nuclear fuel
  • Cost-competitive and Safe SMR
  • Next-Generation SMR for Decentralized Applications
  • PWR-based SMR Offering Low Cost and Easy Deployment
  • Generation-IV Offering High Safety and Efficiency

Patent Landscape

  • United States Leads in Nuclear Fission R&D Activity

Growth Opportunity Universe

  • Growth Opportunity 1: Growing Demand for Low Emission Hydrogen Will Support Generation IV Reactor Development
  • Growth Opportunity 1: Growing Demand for Low-emission Hydrogen Will Support Generation IV Reactor Development (continued)
  • Growth Opportunity 2: Need for Industrial Decarbonization and Electrification Will Support Deployment of Small Modular Reactors
  • Growth Opportunity 2: Need for Industrial Decarbonization and Electrification Will Support the Deployment of SMRs (continued)
  • Growth Opportunity 3: Nuclear Energy Can Ensure Energy Security and Energy Independence in the Current Geopolitical Atmosphere
  • Growth Opportunity 3: Nuclear Energy Can Ensure Energy Security and Energy Independence in the Current Geopolitical Atmosphere (continued)

Appendix

  • Technology Readiness Levels (TRL): Explanation

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