全球脫碳市場：預測（2024-2029）

預計脫碳市場在預測期內將以 10.11% 的複合年成長率成長。

脫碳是應對氣候變遷的重要過程，涉及減少或消除交通、工業和能源生產等多種排放的二氧化碳排放。利用現有技術和新興技術，到 2050 年實現全球淨零經濟的宏偉目標在技術和經濟上肯定是可以實現的。但要實現這一目標需要能源生產和消費模式發生重大轉變。因此，脫碳已成為最高管理層議程的關鍵部分，而在日益具有碳意識的民間社會的推動下，法律體制正在迅速發展。關於氣候變遷的討論常常涉及兩個看似矛盾的概念。一方面，實現完全、快速脫碳的挑戰似乎極其困難，緊迫任務是將全球暖化控制在工業化前水平以下 2 攝氏度以下。另一方面，鑑於情勢的嚴重性，如此快速的脫碳努力是必要事項的。創建和利用資料對於了解脫碳在實現淨零目標中的關鍵作用至關重要。 「資料」的概念已成為將複雜的碳評估轉化為可行見解的重要工具。透過部署工業化測量技術，在可靠的資料和人工智慧平台的支援下，組織可以有效地大規模監控和報告其 ESG（環境、社會、管治）承諾。為了在未來有效地大規模實施脫碳舉措，我們需要與具有不同專業知識的外部合作夥伴合作。

介紹

脫碳市場是一個複雜且動態的市場，圍繞著減少碳排放和向低碳社會轉型的經濟和商業方面。它包含了因緩解氣候變遷的迫切需求而帶來的許多機會和挑戰。該市場的特點是各公司和政府對實現淨零排放的承諾不斷增加，以及旨在促進永續實踐和技術的活動和創新激增。在這個市場中，企業不僅有機會為環境做出積極貢獻，而且有機會在競爭形勢中脫穎而出。透過整合綠色產品和永續的價值提案，公司有潛力獲得更大的市場佔有率，滿足對環保替代品不斷成長的需求，並獲得價格溢價。此外，現有經營模式的脫碳過程已成為價值提升的關鍵驅動力，促使許多公司投資重組其營運，以適應更永續的實踐。機構投資者參與推動全球脫碳是一個顯著趨勢，對碳權和相關計劃的投資成為支持和加速向低碳經濟轉型的手段。此外，碳排放的概念也獲得了支持，因為它有可能提供財務安全並提高整體投資回報，特別是在氣候行動被推遲或迅速實施的情況下。我正在收集。因此，脫碳既是環境的當務之急，也是企業確保其在一系列可能的氣候變遷情境下的長期競爭力和復原力的策略機會。

促進因素

• 能源效率：能源效率是全面追求脫碳的基本支柱，特別是在可預見的未來，因為它是一種多方面的工具，可以以具有成本效益的方式有效遏制溫室氣體排放，被認為是一種方法。脫碳舉措的全面範圍包括協調重點提高各部門的能源效率，包括但不限於建築、運輸和工業運作。透過系統性地改善能源消耗實踐和引入永續技術，我們的目標是大幅減少碳排放，並為全球發展打造更永續的軌道。
• 工業電氣化：為了減少碳排放，必須透過電網和自備發電的結合來利用低碳電力的最新進展。這種策略方法對於更廣泛的脫碳使命至關重要，其中包括各種關鍵策略。其中一種策略是透過使用感應加熱、輻射加熱或先進的熱泵對製程熱進行電氣化，從而有效地減少對傳統燃料加熱方法的依賴。此外，脫碳還需要高溫製程的電氣化，特別普及在鋼鐵和水泥製造等行業，這將顯著減少與傳統高溫生產技術相關的碳足跡。
• 低碳燃料、原料和能源來源：脫碳工作對於應對氣候變遷的緊迫挑戰至關重要。為了減輕溫室氣體排放的負面影響，正在採取各種策略，重點是使用低碳替代品。這些替代方案包括一系列選擇，包括透過將氫、生質燃料和合成燃料整合到現有的能源框架中來減少對傳統高碳能源來源的依賴。此外，低碳原料（尤其是生質能）的採用作為永續解決方案正在獲得越來越多的動力。此外，整合風能、太陽能和地熱等可再生能源是追求永續和環保實踐的基本支柱。透過優先考慮這些措施，產業和社會正在積極為全球遏制碳排放和促進更永續的未來做出貢獻。
• 碳捕獲、利用和儲存（CCUS）：碳捕獲、利用和儲存（CCUS）技術已成為日益嚴重的氣候變遷威脅的重要工具。這些技術能夠捕獲各種工業製程所排放的二氧化碳，為有效減少溫室氣體排放提供了一個可行的途徑。這些排放不僅可以被捕獲並截留在地下，還可以用於提高石油採收率。隨著全球減少碳排放的努力不斷加強，CCUS 技術的整合已成為更廣泛的脫碳策略的重要組成部分。因此，CCUS 在工業領域的廣泛採用越來越受到重視，並且正在大力推動和創新 CCUS 新技術。
• 綠色金融和碳定價機制 綠色金融包括綠色債券和貸款等多種金融產品，將資金集中用於環境友善舉措，促進向更永續的經濟活動轉型。此外，包括碳排放稅和限額與交易體系在內的碳定價機制將碳排放賦予貨幣價值，並迫使企業將其碳足跡的社會成本內部化。將這些金融工具涵蓋更廣泛的經濟框架將獎勵企業主動採取環保做法，最終創造一個更環保和負責任的商業環境。它一定會實現。

主要企業提供的產品

• Atos 提供各種脫碳技術，包括能源效率解決方案、可再生能源解決方案以及捕碳封存解決方案。 Atos 可以代表客戶管理脫碳解決方案的實施和營運。
• BV提供各種脫碳技術，包括能源效率解決方案、可再生能源解決方案以及捕碳封存解決方案。 BV 幫助客戶制定和實施脫碳策略。這包括確定您的碳足跡、設定目標以及製定實現目標的計劃。

脫碳市場中石油和能源領域的顯著成長：

脫碳市場預計將對石油和能源產業產生重大影響，從而產生各種結果和需求。主要影響之一是石油和天然氣需求預計下降。隨著淨零排放軌跡的進展，對新油氣天然氣田的需求將會減少，導致這些資源集中在有限數量的具有成本效益的生產商手中。產量的減少將對參與這些燃料的開採和分配的國家和公司產生深遠的影響。同時，石油和天然氣產業越來越注重對低碳技術的投資。該行業的公司面臨著了解世界向永續能源的轉變將如何影響其營運和經營模式的壓力。他們還需要溝通如何為整體脫碳工作做出貢獻。這需要全面了解能源轉型對業務營運的影響，並致力於採用永續的實踐和技術。碳捕獲、利用和儲存（CCUS）技術的廣泛普及對於實現脫碳目標至關重要。這些創新解決方案提供了排放工業過程中排放的二氧化碳並將其儲存在地下或用於提高採收率的選擇。 CCUS 技術的持續發展和廣泛普及被認為對於實現 2050 年實現淨零排放的宏偉目標至關重要。此外，綠色金融和碳定價機制的引入是獎勵企業減少碳排放的重要驅動力。

預計亞太地區將在脫碳市場中佔據主要佔有率：

由於各種引人注目的因素，預計亞太地區將在脫碳市場中佔據重要佔有率。首先，該地區擁有世界十大排放中的五個：中國、印度、印尼、日本和韓國，這凸顯了挑戰的規模。該地區的人口占全球溫室氣體排放的 45%，是這項統計數據的關鍵促進因素。此外，隨著越來越多的亞太國家承諾致力於實現淨零目標，企業營運脫碳正在成為該地區企業的基本業務要求。隨著公司鼓勵主要供應商和客戶設定脫碳目標，建立了建設性的回饋循環，希望大幅增加承諾和相關的排放排量。

市場開拓：

• 2023年1月，西班牙能源公司Cepsa開始在西班牙卡斯提爾-拉曼恰地區建造三座新的太陽能發電廠。三個太陽能發電廠的總合容量為400兆瓦(MW)。該措施將在坎波德克里普塔納市和阿雷納萊斯德聖格雷戈里奧市實施，總投資達2.8億歐元。
• 2023 年 2 月 ENGIE Impact 與 Molnlycke 合作，幫助該公司實現淨零目標。長達 15 年的合作關係包括各種低碳能源和服務解決方案，以幫助 Molnlycke 減少溫室氣體排放。

目錄

第1章簡介

• 市場概況
• 市場定義
• 調查範圍
• 市場區隔
• 貨幣
• 先決條件
• 基準年和預測年時間表

第2章調查方法

• 調查資料
• 調查過程

第3章執行摘要

• 研究亮點

第4章市場動態

• 市場促進因素
• 市場限制因素
• 波特五力分析
• 產業價值鏈分析

第5章 全球脫碳市場：依類型

• 介紹
• 解決方案
• 服務

第6章 全球脫碳市場：依部署類型

• 介紹
• 本地
• 雲

第7章 全球脫碳市場：依最終用戶分類

• 介紹
• 農業
• 石油和能源
• 金屬和採礦
• 政府
• 其他

第8章 全球脫碳市場：依地區分類

• 介紹
• 北美洲
  • 美國
  • 加拿大
  • 墨西哥
• 南美洲
  • 巴西
  • 阿根廷
  • 其他
• 歐洲
  • 英國
  • 德國
  • 法國
  • 西班牙
  • 其他
• 中東/非洲
  • 沙烏地阿拉伯
  • 阿拉伯聯合大公國
  • 以色列
  • 其他
• 亞太地區
  • 日本
  • 中國
  • 印度
  • 韓國
  • 印尼
  • 泰國
  • 其他

第9章競爭環境及分析

• 主要企業及策略分析
• 市場佔有率分析
• 合併、收購、協議和合作

第10章 公司簡介

• Atos
• EcoAct
• Sphera
• Black & Veatch
• Sinai
• RPS
• Accenture
• IES Ltd.
• Guidehouse
• DNV
• Infosys
• GE Digital
• Siemens

The decarbonisation market is estimated to grow at a CAGR of 10.11% during the forecast period.

Decarbonization, a vital process in combating climate change, entails the reduction or elimination of carbon dioxide emissions from diverse sources, including transportation, industry, and energy production. The ambitious aim of achieving a net-zero global economy by 2050 is indeed within our technical and economic reach, leveraging both existing and emerging technologies. However, its realization necessitates substantial shifts in our energy production and consumption patterns. Consequently, decarbonization has ascended to a prominent position on the agenda of top corporate executives (the C-suite), while legislative frameworks are rapidly evolving, spurred on by an increasingly carbon-conscious civil society. Discussions surrounding climate change often encapsulate two seemingly paradoxical notions. On one hand, the task of achieving complete and rapid decarbonization appears staggeringly challenging, with the urgency of limiting global warming to well below two degrees Celsius relative to pre-industrial levels. On the other hand, the gravity of the situation dictates that such swift decarbonization efforts are an inevitable imperative. Understanding the crucial role of decarbonization in the pursuit of net-zero goals, the generation and utilization of data are indispensable. The concept of Data for Net Zero emerges as a vital tool, serving to translate complex carbon assessments into actionable insights. Through the implementation of industrialized measurement techniques, supported by reliable data and AI platforms, organizations can effectively monitor and report on their ESG (Environmental, Social, and Governance) commitments on a large scale. Looking ahead, effective execution of decarbonization initiatives at scale necessitates collaborative efforts with external partners possessing a diverse range of expertise.

Introduction:

The decarbonization market is a complex and dynamic landscape that revolves around the economic and business aspects of reducing carbon emissions and transitioning towards a low-carbon future. It encompasses many opportunities and challenges that arise from the urgent need to mitigate climate change. The market is characterized by the growing commitment of various companies and governments to achieve net-zero emissions, driving a surge in activities and innovations aimed at fostering sustainable practices and technologies. Within this market, businesses are presented with the chance to not only contribute positively to the environment but also to differentiate themselves in the competitive landscape. By incorporating green products and sustainable value propositions, companies can gain a larger market share and potentially command price premiums, responding to the increasing demand for environmentally friendly alternatives. Additionally, the process of decarbonizing existing business models has emerged as a significant driver of value enhancement, prompting many enterprises to invest in restructuring their operations to align with more sustainable practices. The involvement of institutional investors in promoting global decarbonization efforts has become a notable trend, with investments in carbon credits and related projects serving as a means to support and accelerate the transition to a low-carbon economy. Moreover, the concept of carbon allowances has gained traction, providing financial security and potentially improving overall investment returns, especially in scenarios where climate actions are delayed or implemented swiftly. Decarbonization, therefore, represents an environmental imperative and a strategic opportunity for businesses to ensure their long-term competitiveness and resilience across various potential climate scenarios.

Drivers:

• Energy efficiency: Energy efficiency serves as a fundamental pillar in the overarching pursuit of decarbonization and is recognized as a multifaceted approach that can effectively curb greenhouse gas emissions in a cost-efficient manner, particularly in the foreseeable future. The comprehensive scope of decarbonization initiatives encompasses a concerted focus on enhancing energy efficiency within various sectors, including but not limited to buildings, transportation, and industrial operations. Through a systematic refinement of energy consumption practices and the implementation of sustainable technologies, these efforts aim to significantly minimize the carbon footprint and foster a more sustainable trajectory for global development.
• Industrial electrification: In the pursuit of reducing carbon emissions, it is imperative to harness the latest progress in low-carbon electricity, derived from a combination of grid and on-site renewable generation sources. This strategic approach is pivotal in the broader mission of decarbonization, which encompasses various essential strategies. One such strategy involves the electrification of process heat through the utilization of induction, radiative heating, or advanced heat pumps, effectively minimizing reliance on conventional fuel-based heating methods. Furthermore, the decarbonization drive also entails the electrification of high-temperature range processes, notably prevalent in industries such as iron, steel, and cement manufacturing, thereby curbing the substantial carbon footprint associated with traditional high-temperature production techniques.
• Low-carbon fuels, feedstocks, and energy sources: Decarbonization efforts are pivotal in addressing the pressing issue of climate change. To mitigate the adverse effects of greenhouse gas emissions, various strategies are being adopted, emphasizing the utilization of low-carbon alternatives. These alternatives encompass a spectrum of options, including the integration of hydrogen, biofuels, and synthetic fuels into existing energy frameworks, thereby reducing the reliance on traditional high-carbon sources. Additionally, the adoption of low-carbon feedstocks, particularly biomass, is gaining momentum as a sustainable solution. Furthermore, the incorporation of renewable energy sources, such as wind, solar, and geothermal energy, serves as a fundamental pillar in the pursuit of sustainable and environmentally friendly practices. By prioritizing these measures, industries and societies are actively contributing to the global effort to curb carbon emissions and promote a more sustainable future.
• Carbon capture, utilization, and storage (CCUS): Carbon capture, utilization, and storage (CCUS) technologies have emerged as crucial tools in combating the escalating threat of climate change. With the ability to seize carbon dioxide emissions originating from various industrial processes, these technologies present a viable pathway for effectively mitigating greenhouse gas emissions. Not only can they capture and confine these emissions underground, but they can also harness them to enhance oil recovery. As global efforts to curtail carbon footprints intensify, the integration of CCUS technologies has become a pivotal component of broader decarbonization strategies. Consequently, an increasing emphasis is being placed on the widespread adoption of CCUS within industrial sectors, along with dedicated efforts toward the advancement and innovation of novel CCUS technologies.
• Green finance and carbon pricing mechanisms: Green finance, encompassing a range of financial products like green bonds and loans, channels funds specifically toward environmentally friendly initiatives, fostering a shift towards more sustainable economic activities. Additionally, carbon pricing mechanisms, including carbon taxes and cap-and-trade systems, assign a monetary value to carbon emissions, compelling companies to internalize the social cost of their carbon footprint. By integrating these financial tools into the broader economic framework, companies are incentivized to proactively embrace eco-friendly practices, ultimately fostering a more environmentally conscious and responsible business landscape.

Products offered by key companies:

• Atos offers a range of decarbonization technologies, such as energy efficiency solutions, renewable energy solutions, and carbon capture and storage solutions. Atos can manage the implementation and operation of decarbonization solutions on behalf of its clients.
• BV offers a range of decarbonization technologies, such as energy efficiency solutions, renewable energy solutions, and carbon capture and storage solutions. BV helps clients to develop and implement a decarbonization strategy. This includes identifying their carbon footprint, setting targets, and developing a plan to achieve those targets.

Prominent growth in the oil and energy segment within the decarbonization market:

The decarbonization market is expected to significantly influence the oil and energy segment, leading to various consequences and demands. One of the primary impacts is the projected decline in the demand for oil and natural gas. As the trajectory moves towards achieving net-zero emissions, the necessity for new oil and natural gas fields diminishes, resulting in a concentration of these resources within a limited number of cost-effective producers. This reduction in production is poised to have wide-ranging implications for nations and companies engaged in the extraction and distribution of these fuels. Simultaneously, there is a growing emphasis on investing in low-carbon technologies within the oil and gas industry. Companies in this sector are under increasing pressure to elucidate how the global shift toward sustainable energy will affect their operations and business models. Furthermore, they are expected to communicate the contributions they can make to the overall decarbonization effort. This necessitates a thorough understanding of the implications of energy transitions for their operations, urging them to actively engage in the adoption of sustainable practices and technologies. A critical aspect of achieving decarbonization goals involves the widespread adoption of Carbon Capture, Utilization, and Storage (CCUS) technologies. These innovative solutions enable the capture of carbon dioxide emissions from industrial processes, providing options for their underground storage or utilization in enhanced oil recovery. The continued development and deployment of CCUS technologies are deemed indispensable in the pursuit of the ambitious target of achieving net-zero emissions by 2050. In addition, the implementation of green finance and carbon pricing mechanisms serves as a crucial driving force in incentivizing companies to reduce their carbon footprint.

The Asia Pacific region is expected to hold a significant share of the decarbonization market:

The Asia Pacific region is poised to claim a significant stake in the decarbonization market, owing to various compelling factors. Firstly, the region's status as the residence of five of the planet's top ten emitters, such as China, India, Indonesia, Japan, and South Korea, underscores the magnitude of the challenge. With an impressive 45 percent contribution to global greenhouse gas emissions, this region's substantial population is a key driver of this statistic. Moreover, the increasing number of countries within the Asia Pacific realm pledging allegiance to the cause of net-zero targets has transformed the decarbonization of business operations into an essential operational requirement for companies across the area. As businesses commit to influencing their principal suppliers or customers to establish decarbonization objectives, a constructive feedback loop is being established, promising an exponential surge in commitments and a subsequent reduction in emissions over time.

Market developments:

• In January 2023, Cepsa, a Spanish energy company, started building three new solar power plants in Castilla-La Mancha, Spain. The three solar energy farms have a combined capacity of 400 megawatts (MW). The initiatives are being carried out in the municipalities of Campo de Criptana and Arenales de San Gregorio, with a total investment of EUR 280 million.
• In February 2023. ENGIE Impact has partnered with Molnlycke to help the company achieve its net-zero goals. The 15-year partnership will include a variety of low-carbon energy and services solutions to help Molnlycke reduce its greenhouse gas emissions.

Segments

By Type

• Solutions
• Services

By Deployment Type

• On-Premises
• Cloud

By End Users

• Agricultural
• Oil & Energy
• Metal & Mining
• Government
• Others

By Geography

• North America
• United States
• Canada
• Mexico
• South America
• Brazil
• Argentina
• Others
• Europe
• United Kingdom
• Germany
• France
• Spain
• Others
• Middle East and Africa
• Saudi Arabia
• UAE
• Israel
• Others
• Asia Pacific
• Japan
• China
• India
• South Korea
• Indonesia
• Thailand
• Others

TABLE OF CONTENTS

1. INTRODUCTION

• 1.1. Market Overview
• 1.2. Market Definition
• 1.3. Scope of the Study
• 1.4. Market Segmentation
• 1.5. Currency
• 1.6. Assumptions
• 1.7. Base, and Forecast Years Timeline

2. RESEARCH METHODOLOGY

• 2.1. Research Data
• 2.2. Research Processes

3. EXECUTIVE SUMMARY

• 3.1. Research Highlights

4. MARKET DYNAMICS

• 4.1. Market Drivers
• 4.2. Market Restraints
• 4.3. Porter's Five Force Analysis
  • 4.3.1. Bargaining Power of Suppliers
  • 4.3.2. Bargaining Power of Buyers
  • 4.3.3. Threat of New Entrants
  • 4.3.4. Threat of Substitutes
  • 4.3.5. Competitive Rivalry in the Industry
• 4.4. Industry Value Chain Analysis

5. GLOBAL DECARBONISATION MARKET BY TYPE

• 5.1. Introduction
• 5.2. Solutions
• 5.3. Services

6. GLOBAL DECARBONISATION MARKET BY DEPLOYMENT TYPE

• 6.1. Introduction
• 6.2. On-Premises
• 6.3. Cloud

7. GLOBAL DECARBONISATION MARKET BY END-USERS

• 7.1. Introduction
• 7.2. Agricultural
• 7.3. Oil & Energy
• 7.4. Metal & Mining
• 7.5. Government
• 7.6. Others

8. GLOBAL DECARBONISATION MARKET BY GEOGRAPHY

• 8.1. Introduction
• 8.2. North America
  • 8.2.1. United States
  • 8.2.2. Canada
  • 8.2.3. Mexico
• 8.3. South America
  • 8.3.1. Brazil
  • 8.3.2. Argentina
  • 8.3.3. Others
• 8.4. Europe
  • 8.4.1. United Kingdom
  • 8.4.2. Germany
  • 8.4.3. France
  • 8.4.4. Spain
  • 8.4.5. Others
• 8.5. The Middle East and Africa
  • 8.5.1. Saudi Arabia
  • 8.5.2. UAE
  • 8.5.3. Israel
  • 8.5.4. Others
• 8.6. Asia Pacific
  • 8.6.1. Japan
  • 8.6.2. China
  • 8.6.3. India
  • 8.6.4. South Korea
  • 8.6.5. Indonesia
  • 8.6.6. Thailand
  • 8.6.7. Others

9. COMPETITIVE ENVIRONMENT AND ANALYSIS

• 9.1. Major Players and Strategy Analysis
• 9.2. Market Share Analysis
• 9.3. Mergers, Acquisitions, Agreements, and Collaborations

10. COMPANY PROFILES

• 10.1. Atos
• 10.2. EcoAct
• 10.3. Sphera
• 10.4. Black & Veatch
• 10.5. Sinai
• 10.6. RPS
• 10.7. Accenture
• 10.8. IES Ltd.
• 10.9. Guidehouse
• 10.10. DNV
• 10.11. Infosys
• 10.12. GE Digital
• 10.13. Siemens