永续製造 - 透过再生能源、工业物联网、购电协议和製造业碳捕获实现工业永续发展：全球市场概述和预测（2024-2033）

随着气候变迁的加速以及世界各国政府开始认真考虑减少温室气体 (GHG) 排放，製造商正在增加我们的目标。 从概念上讲，永续製造并不复杂。 透过更有效率的流程减少能源使用，透过用自然能源取代传统能源来最大限度地减少温室气体排放，透过数位化和精益製造流程提高正常运作时间和生产效率，最后在某些情况下，这可能包括引入碳捕获技术来封存或再利用排放的碳。

儘管这些技术和方法仍然存在，但工业界距离实现真正的永续製造还有很长的路要走。 20 世纪设施升级的成本和复杂性仍然是製造业广泛部署永续发展解决方案的主要障碍，但政府的指令和最终用户的需求是各行业的高阶主管越来越认识到未来状况恶化的迹象。

本报告分析了永续製造的主要趋势，并确定了使工业流程更具永续性的四个关键技术领域：数位化和工业物联网(IIoT)。投资预测。 本报告概述了循环经济和回收方法，并描述了一些精益製造方法。 最后，我们依地区和技术预测了永续製造技术核心领域（2024-2033）的全球投资趋势。

目录

第 1 章执行摘要

第二章市场问题

• 永续製造
  • 永续製造的商业案例
  • 数位化/工业物联网
  • 再生能源
  • 购电协议
  • 碳回收
  • 其他新科技与永续流程
• 永续製造市场的驱动因素与障碍

第三章产业价值链

• 製造价值链
• 永续製造利害关係人与竞争格局

第四章市场预测

• 永续製造技术解决方案的市场前景
• 预测方法
• 世界市场概览
• 依地区划分的市场概览
  • 北美
  • 欧洲
  • 亚太地区
  • 拉丁美洲
  • 中东/非洲

第 5 章结论/建议

• 三大要点
• 建议

第 6 章首字母缩写词和缩写词列表

第 7 章目录

第 8 章图表

第九章研究范围

第十章资料来源、研究方法及註

As climate change accelerates and governments around the world grow more serious about reducing greenhouse gas (GHG) emissions, manufacturers are realizing that esoteric sustainability goals in annual reports will no longer suffice. Conceptually, sustainable manufacturing is not complicated. Manufacturers can make their factories greener in numerous ways: reducing energy use through more efficient processes; minimizing GHG emissions by replacing traditional energy sources with renewables; improving uptime and production efficiency via digitalization and lean manufacturing processes; and, when all else fails, implementing carbon capture techniques to sequester or repurpose carbon emissions.

All these technologies and methodologies exist today-but the industrial world remains far from achieving truly sustainable manufacturing. The costs and complexity involved in upgrading 20th century facilities remain significant barriers to broader deployment of sustainability solutions in manufacturing, but increasingly, government mandates and end-user demand are driving executives in manufacturing verticals to acknowledge the writing on the wall.

This Guidehouse Insights report analyzes major trends in sustainable manufacturing and forecasts projected investment in four key technology areas that will be core to rendering industrial processes more sustainable: digitalization and industrial IoT (IIoT) technologies; increased renewables capacity through on-premises facilities; increased renewables capacity via power purchase agreements (PPAs); and carbon capture, utilization, and sequestration techniques. The report provides an overview of circular economy and recycling methodologies and describes numerous lean manufacturing principles. Finally, it projects global investments in core sustainable manufacturing technology segments by region and technology from 2024 through 2033.

Table of Contents

1. Executive Summary

1.1 Global Investment in Sustainable Manufacturing

2. Market Issues

• 2.1 Sustainable Manufacturing
  • 2.1.1 The Business Case for Sustainable Manufacturing
  • 2.1.2 Digitalization/IIoT
  • 2.1.3 Renewable Energy
    • 2.1.3.1 Emerging Renewables
  • 2.1.4 Power Purchase Agreements
  • 2.1.5 Carbon Capture
  • 2.1.6 Other Emerging Technologies and Sustainable Processes
    • 2.1.6.1 Circular Economy/Recycling
    • 2.1.6.2 Zero Energy Buildings
    • 2.1.6.3 Lean Manufacturing
• 2.2 Sustainable Manufacturing Market Drivers and Barriers

3. Industry Value Chain

• 3.1 The Manufacturing Value Chain
• 3.2 Sustainable Manufacturing Stakeholders and Competitive Landscape

4. Market Forecasts

• 4.1 Market Outlook for Sustainable Manufacturing Technology Solutions
• 4.2 Forecast Methodology
• 4.3 Global Market Overview
• 4.4 Regional Market Overview
  • 4.4.1 North America
  • 4.4.2 Europe
  • 4.4.3 Asia Pacific
  • 4.4.4 Latin America
  • 4.4.5 Middle East & Africa

5. Conclusions and Recommendations

• 5.1 Three Big Takeaways
• 5.2 Recommendations

6. Acronym and Abbreviation List

7. Table of Contents

8. Table of Charts and Figures

9. Scope of Study

10. Sources, Methodology and Notes

List of Tables

Tracked Renewable PPA Capacity, All Corporate vs. Manufacturing/Industrial, World Markets: Dec 2008-Feb 2023

• Annual Investment in Sustainable Manufacturing Technologies by Region, World Markets: 2024-2033
• Annual Investment in Sustainable Manufacturing Technologies by Technology, World Markets: 2024-2033
• Annual Investment in Sustainable Manufacturing Technologies by Technology, North America: 2024-2033
• Annual Investment in Sustainable Manufacturing Technologies by Technology, Europe: 2024-2033
• Annual Investment in Sustainable Manufacturing Technologies by Technology, Asia Pacific: 2024-2033
• Annual Investment in Sustainable Manufacturing Technologies by Technology, Latin America: 2024-2033
• Annual Investment in Sustainable Manufacturing Technologies by Technology, Middle East & Africa: 2024-2033

Environmental Benefits of Lean Manufacturing Methods

List of Figures

• Annual Industrial Renewables Capacity Additions by Region, World Markets: 2024-2033

Annual Investment in Sustainable Manufacturing Technologies by Region, World Markets: 2024-2033"

Annual Investment in Sustainable Manufacturing Technologies by Technology, World Markets: 2024-2033"

Percentage of Sustainable Manufacturing Investment by Region, World Markets: 2024

Percentage of Sustainable Manufacturing Investment by Region, World Markets: 2033

Annual Investment in Sustainable Manufacturing Technologies by Technology, North America: 2024-2033"

Annual Investment in Sustainable Manufacturing Technologies by Technology, Europe: 2024-2033"

Annual Investment in Sustainable Manufacturing Technologies by Technology, Asia Pacific: 2024-2033"

Annual Investment in Sustainable Manufacturing Technologies by Technology, Latin America: 2024-2033"

Annual Investment in Sustainable Manufacturing Technologies by Technology, Middle East & Africa: 2024-2033"

Manufacturing Value Chain: Multiple Opportunities for Efficiency and Sustainability

Examples of Stakeholders in the Manufacturing Value Chain