Power to Gas Market - Forecast 2024 | Focus on Product

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Report Description

Base Year : 2018
Market Size in 2018 : 27589.0 KW

Market Report Coverage - Global Power-to-Gas Market
Base Year	2018	Market Size in 2018 (Additional Capacity)	27589.0 KW
Market Segmentation	• Technology – Electrolysis and Methanation • Product – Hydrogen and Methane • End-User - Steel Industry, Transportation, Gas Grid, and Others
Regional Segmentation	• Europe – Germany, France, Demark, U.K., Switzerland, Netherlands, and Rest-of-the-World • Asia-Pacific – China, Japan, Australia, and Rest-of-the-Asia-Pacific • North America – U.S and Canada • Rest-of-the-World - Middle East and Africa and South America
Key Companies Profiled	The key market players in the global power-to-gas market include Aquahydrex, Inc., Electrochaea GmbH, EXYTRON GmbH, Hitachi Zosen Corporation, Hydrogenics Corporation, ITM Power PLC, MAN Energy Solutions,McPhy Energy S.A., MicroPyros GmbH, Nel ASA, Power-to-Gas Hungary Kft., Siemens AG, Southern California Gas Company, thyssenkrupp AG, and Uniper SE.

Market Outlook by Technology

The technology segment of the market is categorized into Electrolysis and Methanation. Each segment is further categorized into sub-segments. The electrolysis is sub-segmented into alkaline electrolysis (AEL), polymer electrolyte membrane (PEM) Electrolysis, and solid oxide electrolysis (SOEC). The adoption of electrolysis technology since 2014, the technology in power-to-gas market, in terms of capacity, is currently dominated by alkaline electrolysis, followed by polymer electrolyte membrane (PEM). The PEM technology is expected to show heathy growth once its cost gets reduced in the coming years due to large scale adoption. The cost reduction of electrolyzer technology is a crucial factor that decides upon the profit margin of the investors.

The methanation technology is further categorized into catalytic and biological. The catalytic methanation process has traditionally been the most used technology for the production of methane in the industrial process. However, in case of intermittent operation and handling of impurities present in carbon dioxide, it is less likely to be a well-suited option. In this regard, biological methanation process is a better option to get the desired result. Biological methanation is being used in the Audi demonstration plant in Germany, and BioCat plant in Denmark, among others.

By Product

Hydrogen is the most produced gas in the power-to-gas market. The production of hydrogen with the help of electrolysis in power-to-gas plants is widely being considered as an energy vector as it emits no greenhouse gases or toxic pollutants. In order to achieve the ambitious targets, set by different countries to become an energy efficient economy, the countries need to adopt hydrogen into their power generation systems, building sector and transportation sector, among others. The hydrogen gas segment is expected to be the largest for the period between 2020 and 2024.

By Region

The power-to-gas market is anticipated to have a promising growth in various countries of North America, Asia-Pacific (APAC), and Europe, among others. Europe is currently the largest market in the power-to-gas market in terms of both capacity and the number of operational plants. Various government initiatives have been undertaken to promote the adoption and manufacturing of power-to-gas plant, as they may help in the reduction of greenhouse gas emissions and the gaseous products thus obtained act as a potential substitute for natural gas.

North America and Asia-Pacific have small shares in the global power-to-gas market. Factors such as rise in GDP of the economy, stringent fuel economy standards, and growth in FCEV sales are expected to drive the market growth of green hydrogen in the country, thus promoting the growth of power-to-gas.

Power To Gas Market

Key Questions Answered in this Report

Why should an investor consider venturing into the power-to-gas market, and what are the future growth opportunities?

Market Overview

Power-to-Gas Market is anticipated to have a robust growth on the basis of capacity during the forecast period from 2020 to 2024

Market Overview and Estimation

The power-to-gas technology has been pivotal in fulfilling the significantly high energy requirements since its introduction. The entire ecosystem of electricity production plays a crucial role in storing energy. Therefore, huge investments along with intensive R&D are currently being made by various key companies to enhance the energy storage capacity with the help of renewable sources of energy.

Moreover, the ongoing environmental concerns have further been escalating the requirement of innovative changes in energy consumption pattern. The concept of power-to-gas is looked upon as a promising innovation that would complement the integration of renewable sources of energy such as photovoltaic panels and wind panels with electrolyzers and methanation equipment to produce green gases such as hydrogen and methane.

Power-to-gas is a potential innovation that provides flexibility in terms of electric infeed and the overall efficiency of the conversion process is high. It works well with the existing gas network and is of much use to facilitate the seasonal storage of energy. The gases thus produced as a major product from power-to-gas plants further help in decarbonizing different end-user industries such as steel industry, gas grid, and automotive, among others.

The entire power-to-gas concept revolves around generation of green gas with the help of renewable sources of electricity whereby water is broken into hydrogen and oxygen with the help of electrolysis. The green hydrogen gas thus produced is either used directly or transported through the gas grid to serve different application areas or processed further with the help of methanation process to produce methane by blending with carbon dioxide.

Market Dynamics
Growth Drivers	• Transition Toward Renewable Sources of Energy • Government Initiatives to Reduce Carbon Dioxide Emissions
Market Restraints	• High Investment Cost of Power-to-Gas Facility • Infrastructural Barriers in Terms of Gas Network
Market Opportunities	• Growing Demand for Hydrogen as a Green Transportation Fuel • Rising Need for Flexibility in Energy Storage • Stringent Regulations that Promote Emission Reduction in Manufacturing and Power Industries

Growth Factors

Transition to renewable sources of energy: Several countries are moving towards renewable resources and making investments through research and development so as to make a significant transition toward decarbonization. The fossil fuel reserves are limited and unable to suffice the ever-rising energy demand of the world and hence, it is crucial to come up with technological creativity to induce renewable resources to meet the energy demand. Owing to environment concern, regions such as Europe have undertaken ambitious targets to include renewable sources of energy and minimize their overall energy consumption. Countries such as Spain are good examples where targets have been set to cover the energy demand through 100% renewable resources by 2050. The initial goal however is to achieve 42% of the energy demand being met by renewable resources by 2030.
Initiatives to reduce carbon dioxide emissions: The concept of carbon footprint has made both the consumers and the producers aware of the amount of carbon dioxide emitted and about its perilous consequences on the environment. The world is now laying emphasis on reduction of carbon footprint, thus, emerges the need for products that are environment friendly and require renewable resources in their making. An upsurge in the demand for power-to-gas technology is largely being witnessed due to the increasing awareness to cut down on the carbon dioxide emissions. The Paris agreement and its mandate for different countries to take measurable steps to minimize the average global temperature therefore becomes a vital initiation to curb the harmful impact on climate. Several end-user industries across the globe have to pay carbon taxes on the amount of carbon dioxide emitted. These industries, therefore, have the incentive to invest into power-to-gas technology to curb their emissions and generate fuels as a product out of the plant. The government-levied carbon taxes, targets and policies in certain cases (especially in Europe) have successfully helped in plummeting the consumption of fossil fuels. From the consumption point of view, the targets play a massive role in the growth of power-to-gas technology.

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1.1 Market Drivers
1.1.1 Transition Toward Renewable Sources of Energy
1.1.2 Government Initiatives to Reduce Carbon Dioxide Emissions
1.2 Market Restraints
1.2.1 High Investment Cost of Power-to-Gas Facility
1.2.2 Infrastructural Barriers in Terms of Gas Network
1.3 Market Opportunities
1.3.1 Growing Demand for Hydrogen as a Green Transportation Fuel
1.3.2 Rising Need for Flexibility in Energy Storage
1.3.3 Stringent Regulations that Promote Emission Reduction in Manufacturing and Power Industries

2.1 Key Market Development and Strategies
2.1.1 Business Expansions
2.1.2 Partnerships, Collaborations, and Contracts
2.1.3 Investment and Funding
2.1.4 Mergers, Acquisitions, and Joint Ventures
2.1.5 Product Launches
2.1.6 Other Key Activities

3.1 Patent Analysis
3.2 Supply Chain Analysis
3.3 Industry Attractiveness
3.3.1 Threat of New Entrants (High)
3.3.2 Bargaining Power of Buyers (Low)
3.3.3 Bargaining Power of Suppliers (Low)
3.3.4 Threat of Substitutes (Low)
3.3.5 Intensity of Competition (High)
3.4 List of Planned Power-to-Gas Projects

4.1 Market Overview
4.2 Electrolysis
4.2.1 Alkaline Electrolysis (AEL)
4.2.2 Polymer Electrolyte Membrane (PEM) Electrolysis
4.2.3 Solid Oxide Electrolysis (SOEC)
4.3 Methanation
4.3.1 Catalytic
4.3.2 Biological

5.1 Market Overview
5.2 Hydrogen
5.3 Methane

6.1 Market Overview
6.2 Steel Industry
6.3 Transportation
6.4 Gas Grid
6.5 Others

7.1 Market Outlook
7.2 Factors Determining the Growth of Power-to-Gas
7.2.1 Cost Analysis of the Technologies Involved
7.2.2 Pain Points of Power-to-Gas Market
7.2.3 Policy Recommendations for the Power-to-Gas Market
7.2.4 Analyst Point of View

8.1 Market Overview
8.1.1 Global Power-to-Gas Market (by Region), Kilowatt, 2014-2024
8.2 Europe
8.2.1 Europe Power-to-Gas Market (by Electrolyzer Technology)
8.2.2 Europe Power-to-Gas Market (by Methanation Technology)
8.2.3 Europe Power-to-Gas Market (by Product)
8.2.4 Europe Power-to-Gas Market (by Country)
8.2.5 Germany
8.2.5.1 List of Power-to-Gas Plants Identified in Germany
8.2.5.2 Germany Power-to-Gas Market (by Electrolyzer Technology)
8.2.5.3 Germany Power-to-Gas Market (by Methanation Technology)
8.2.5.4 Germany Power-to-Gas Market (by Product)
8.2.6 France
8.2.6.1 List of Power-to-Gas Plants Identified in France
8.2.6.2 France Power-to-Gas Market (by Electrolyzer Technology)
8.2.6.3 France Power-to-Gas Market (by Methanation Technology)
8.2.6.4 France Power-to-Gas Market (by Product)
8.2.7 Denmark
8.2.7.1 List of Power-to-Gas Plants Identified in Denmark
8.2.7.2 Denmark Power-to-Gas Market (by Electrolyzer Technology)
8.2.7.3 Denmark Power-to-Gas Market (by Methanation Technology)
8.2.7.4 Denmark Power-to-Gas Market (by Product)
8.2.8 U.K.
8.2.8.1 List of Power-to-Gas Plants Identified in the U.K.
8.2.8.2 U.K. Power-to-Gas Market (by Electrolyzer Technology)
8.2.8.3 U.K. Power-to-Gas Market (by Methanation Technology)
8.2.8.4 U.K. Power-to-Gas Market (by Product)
8.2.9 Switzerland
8.2.9.1 List of Power-to-Gas Plants Identified in Switzerland
8.2.9.2 Switzerland Power-to-Gas Market (by Electrolyzer Technology)
8.2.9.3 Switzerland Power-to-Gas Market (by Methanation Technology)
8.2.9.4 Switzerland Power-to-Gas Market (by Product)
8.2.10 Netherlands
8.2.10.1 List of Power-to-Gas Plants Identified in the Netherlands
8.2.10.2 Netherlands Power-to-Gas Market (by Electrolyzer Technology)
8.2.10.3 Netherlands Power-to-Gas Market (by Methanation Technology)
8.2.10.4 Netherlands Power-to-Gas Market (by Product)
8.2.11 Rest-of-Europe
8.2.11.1 List of Power-to-Gas Plants Identified in Rest-of-Europe
8.2.11.2 Rest-of-Europe Power-to-Gas Market (by Electrolyzer Technology)
8.2.11.3 Rest-of-Europe Power-to-Gas Market (by Methanation Technology)
8.2.11.4 Rest-of-Europe Power-to-Gas Market (by Product)
8.3 Asia-Pacific
8.3.1 Asia-Pacific Power-to-Gas Market (by Electrolyzer Technology)
8.3.2 Asia-Pacific Power-to-Gas Market (by Methanation Technology)
8.3.3 Asia-Pacific Power-to-Gas Market (by Product)
8.3.4 Asia-Pacific Power-to-Gas Market (by Country)
8.3.5 China
8.3.5.1 List of Power-to-Gas Plants Identified in China
8.3.5.2 China Power-to-Gas Market (by Electrolyzer Technology)
8.3.5.3 China Power-to-Gas Market (by Methanation Technology)
8.3.5.4 China Power-to-Gas Market (by Product)
8.3.6 Japan
8.3.6.1 List of Power-to-Gas Plants Identified in Japan
8.3.6.2 Japan Power-to-Gas Market (by Electrolyzer Technology)
8.3.6.3 Japan Power-to-Gas Market (by Methanation Technology)
8.3.6.4 Japan Power-to-Gas Market (by Product)
8.3.7 Australia
8.3.7.1 List of Power-to-Gas Plants Identified in Australia
8.3.7.2 Australia Power-to-Gas Market (by Electrolyzer Technology)
8.3.7.3 Australia Power-to-Gas Market (by Methanation Technology)
8.3.7.4 Australia Power-to-Gas Market (by Product)
8.3.8 Rest-of-Asia-Pacific
8.3.8.1 List of Power-to-Gas Plants Identified in Rest-of-APAC
8.3.8.2 Rest-of-Asia-Pacific Power-to-Gas Market (by Electrolyzer Technology)
8.3.8.3 Rest-of-Asia-Pacific Power-to-Gas Market (by Methanation Technology)
8.3.8.4 Rest-of-Asia-Pacific Power-to-Gas Market (by Product)
8.4 North America
8.4.1 North America Power-to-Gas Market (by Electrolyzer Technology)
8.4.2 North America Power-to-Gas Market (by Methanation Technology)
8.4.3 North America Power-to-Gas Market (by Product)
8.4.4 North America Power-to-Gas Market (by Country)
8.4.5 U.S.
8.4.5.1 List of Power-to-Gas Plants Identified in the U.S.
8.4.5.2 U.S. Power-to-Gas Market (by Electrolyzer Technology)
8.4.5.3 U.S. Power-to-Gas Market (by Methanation Technology)
8.4.5.4 U.S. Power-to-Gas Market (by Product)
8.4.6 Canada
8.4.6.1 List of Power-to-Gas Plants Identified in Canada
8.4.6.2 Canada Power-to-Gas Market (by Electrolyzer Technology)
8.4.6.3 Canada Power-to-Gas Market (by Methanation Technology)
8.4.6.4 Canada Power-to-Gas Market (by Product)
8.5 Rest-of-the-World
8.5.1 Rest-of-the-World Power-to-Gas Market (by Electrolyzer Technology)
8.5.2 Rest-of-the-World Power-to-Gas Market (by Methanation Technology)
8.5.3 Rest-of-the-World Power-to-Gas Market (by Product)
8.5.4 Middle East and Africa
8.5.4.1 List of Power-to-Gas Plants Identified in Middle East and Africa
8.5.4.2 Middle East and Africa Power-to-Gas Market (by Electrolyzer Technology)
8.5.4.3 Middle East and Africa Power-to-Gas Market (by Methanation Technology)
8.5.4.4 Middle East and Africa Power-to-Gas Market (by Product)
8.5.5 South America
8.5.5.1 List of Power-to-Gas Plants Identified in South America
8.5.5.2 South America Power-to-Gas Market (by Electrolyzer Technology)
8.5.5.3 South America Power-to-Gas Market (by Methanation Technology)
8.5.5.4 South America Power-to-Gas Market (by Product)

9.1 Overview
9.2 Aquahydrex, Inc.
9.2.1 Company Overview
9.2.2 Role of Aquahydrex, Inc. in Global Power-to-Gas Market
9.2.3 Product Portfolio
9.2.4 Strengths of Aquahydrex, Inc. in Global Power-to-Gas Market
9.2.5 Weaknesses of Aquahydrex, Inc. in Global Power-to-Gas Market
9.3 Electrochaea GmbH
9.3.1 Company Overview
9.3.2 Role of Electrochaea GmbH in Global Power-to-Gas Market
9.3.3 Product Portfolio
9.3.4 Strengths of Electrochaea GmbH in Global Power-to-Gas Market
9.3.5 Weaknesses of Electrochaea GmbH in Global Power-to-Gas Market
9.4 EXYTRON GmbH
9.4.1 Company Overview
9.4.2 Role of EXYTRON GmbH in Global Power-to-Gas Market
9.4.3 Product Portfolio
9.4.4 Strengths of EXYTRON GmbH in Global Power-to-Gas Market
9.4.5 Weaknesses of EXYTRON GmbH in Global Power-to-Gas Market
9.5 Hitachi Zosen Corporation
9.5.1 Company Overview
9.5.2 Role of Hitachi Zosen Corporation in Global Power-to-Gas Market
9.5.3 Product Portfolio
9.5.4 Financials
9.5.5 Research and Development
9.5.6 Strengths of Hitachi Zosen Corporation in Global Power-to-Gas Market
9.5.7 Weaknesses of Hitachi Zosen Corporation in Global Power-to-Gas Market
9.6 Hydrogenics Corporation
9.6.1 Company Overview
9.6.2 Role of Hydrogenics Corporation in Global Power-to-Gas Market
9.6.3 Product Portfolio
9.6.4 Financials
9.6.5 Research and Development
9.6.6 Strengths of Hydrogenics Corporation in Global Power-to-Gas Market
9.6.7 Weaknesses of Hydrogenics Corporation in Global Power-to-Gas Market
9.7 ITM Power PLC
9.7.1 Company Overview
9.7.2 Role of ITM Power PLC in Global Power-to-Gas Market
9.7.3 Product Portfolio
9.7.4 Financials
9.7.5 Research and Development
9.7.6 Strengths of ITM Power PLC in Global Power-to-Gas Market
9.7.7 Weaknesses of ITM Power PLC in Global Power-to-Gas Market
9.8 MAN Energy Solutions
9.8.1 Company Overview
9.8.2 Role of MAN Energy Solutions in Global Power-to-Gas Market
9.8.3 Product Portfolio
9.8.4 Strengths of MAN Energy Solutions in Global Power-to-Gas Market
9.8.5 Weaknesses of MAN Energy Solutions in Global Power-to-Gas Market
9.9 McPhy Energy S.A.
9.9.1 Company Overview
9.9.2 Role of McPhy Energy S.A. in Global Power-to-Gas Market
9.9.3 Product Portfolio
9.9.4 Financials
9.9.5 Strengths of McPhy Energy S.A. in Global Power-to-Gas Market
9.9.6 Weaknesses of McPhy Energy S.A. in Global Power-to-Gas Market
9.10 MicroPyros GmbH
9.10.1 Company Overview
9.10.2 Role of MicroPyros GmbH In Global Power-to-Gas Market
9.10.3 Product Portfolio
9.10.4 Strengths of MicroPyros GmbH in Global Power-to-Gas Market
9.10.5 Weaknesses of MicroPyros GmbH in Global Power-to-Gas Market
9.11 Nel ASA
9.11.1 Company Overview
9.11.2 Role of Nel ASA in Global Power-to-Gas Market
9.11.3 Product Portfolio
9.11.4 Financials
9.11.5 Strengths of Nel ASA in Global Power-to-Gas Market
9.11.6 Weaknesses of Nel ASA in Global Power-to-Gas Market
9.12 Power-to-Gas Hungary Kft.
9.12.1 Company Overview
9.12.2 Role of Power-to-Gas Hungary Kft. In Global Power-to-Gas Market
9.12.3 Product Portfolio
9.12.4 Strengths of Power-to-Gas Hungary Kft. in Global Power-to-Gas Market
9.12.5 Weaknesses of Power-to-Gas Hungary Kft. in Global Power-to-Gas Market
9.13 Siemens AG
9.13.1 Company Overview
9.13.2 Role of Siemans AG in Global Power-to-Gas Systems
9.13.3 Product Portfolio
9.13.4 Financials
9.13.5 Strengths of Siemens AG in Global Power-to-Gas Market
9.13.6 Weaknesses of Siemens AG in Global Power-to-Gas Market
9.14 Southern California Gas Company (SoCalGas)
9.14.1 Company Overview
9.14.2 Role of Southern California Gas Company in Global Power-to-Gas Market
9.14.3 Product Portfolio
9.14.4 Strengths of Southern California Gas Company in Global Power-to-Gas Market
9.14.5 Weaknesses of Southern California Gas Company in Global Power-to-Gas Market
9.15 thyssenkrupp AG
9.15.1 Company Overview
9.15.2 Role of thyssenkrupp AG in Global Power-to-Gas Market
9.15.3 Product Portfolio
9.15.4 Financials
9.15.5 Research and Development
9.15.6 Strengths of thyssenkrupp AG in Global Power-to-Gas Market
9.15.7 Weaknesses of thyssenkrupp AG in Global Power-to-Gas Market
9.16 Uniper SE
9.16.1 Company Overview
9.16.2 Role of Uniper SE in Global Power-to-Gas Market
9.16.3 Product Portfolio
9.16.4 Financials
9.16.5 Strengths of Uniper SE in Global Power-to-Gas Market
9.16.6 Weaknesses of Uniper SE in Global Power-to-Gas Market

10.1 CXO’s Perspective

11.1 Report Scope
11.2 Global Power-to-Gas Market Research Methodology
11.2.1 Assumptions
11.2.2 Limitations
11.2.3 Primary Data Sources
11.2.4 Secondary Data Sources
11.2.5 Data Triangulation
11.2.6 Market Estimation and Forecast

Table 1.1:   Impact Analysis of Drivers
Table 1.2:   Impact Analysis of Restraints
Table 1.3:   Project Cost of Power-to-Gas Plants
Table 3.1:   Key Factors in Determining “Threat from New Entrants” in Power-to-Gas Market
Table 3.2:   Key Factors in Determining “Bargaining Power of Buyers” in the Power-to-Gas Market
Table 3.3:   Key Factors in Determining “Bargaining Power of Suppliers” in Power-to-Gas Market
Table 3.4:   Analyzing the Threat of Substitutes in Power-to-Gas Market
Table 3.5:   Key Factors in Determining “Rivalry Among Existing Firms” in Power-to-Gas Market
Table 3.6   List of Planned Power-to-Gas Project
Table 4.1:   Global Power-to-Gas Market (by Technology), Kilowatt, 2014-2024
Table 4.2:   Global Power-to-Gas Market (by Technology), Units, 2014-2024
Table 4.3:   Global Power-to-Gas Market (by Electrolysis Technology), Kilowatt, 2014-2024
Table 4.4:   Global Power-to-Gas Market (by Electrolysis Technology), Units, 2014-2024
Table 4.5:   Global Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 4.6:   Global Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 4.7:   Methanation Process Undertaken by Some Power-to-Gas Projects
Table 4.8:   Methanation Process Undertaken by Some Power-to-Gas Projects
Table 5.1:   Global Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 5.2:   Global Power-to-Gas Market (by Product), Units, 2014-2024
Table 6.1:   National FCEV Targets (Units)
Table 6.2:   National Hydrogen Fueling Station Targets (Units)
Table 8.1:   Global Power-to-Gas Market (by Region), Kilowatt, 2014-2024
Table 8.2:   Global Power-to-Gas Market (by Region), Units, 2014-2024
Table 8.3:   Europe Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.4:   Europe Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.5:   Europe Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.6:   Europe Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.7:   Europe Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.8:   Europe Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.9:   Europe Power-to-Gas Market (by Country), Kilowatt 2014-2024
Table 8.10:   Europe Power-to-Gas Market (by Country), Units, 2014-2024
Table 8.11:   List of Power-to-Gas Plants in Germany
Table 8.12:   Germany Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.13:   Germany Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.14:   Germany Power-to-Gas Market (by Methanation Technology), Kilowatt 2014-2024
Table 8.15:   Germany Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.16:   Germany Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.17:   Germany Power-to-Gas Market (by Product), Units, 2018-2024
Table 8.18:   List of Power-to-Gas Plants in France
Table 8.19:   France Power-to-Gas Market (by Electrolyzer Technology), Kilowatt 2014-2024
Table 8.20:   France Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.21:   France Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.22:   France Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.23:   France Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.24:   France Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.25:   List of Power-to-Gas Plants in Denmark
Table 8.26:   Denmark Power-to-Gas Market (by Electrolyzer Technology), Kilowatt 2014-2024
Table 8.27:   Denmark Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.28:   Denmark Power-to-Gas Market (by Methanation Technology), Kilowatt 2014-2024
Table 8.29:   Denmark Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.30:   Denmark Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.31:   Denmark Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.32:   List of Power-to-Gas Plants in U.K.
Table 8.33:   U.K. Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.34:   U.K. Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.35:   U.K. Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.36:   U.K. Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.37:   U.K. Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.38:   U.K. Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.39:   List of Power-to-Gas Plants in Switzerland
Table 8.40:   Switzerland Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.41:   Switzerland Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.42:   Switzerland Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.43:   Switzerland Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.44:   Switzerland Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.45:   Switzerland Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.46:   List of Power-to-Gas Plants in the Netherlands
Table 8.47:   Netherlands Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.48:   Netherlands Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.49:   Netherlands Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.50:   Netherlands Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.51:   Netherlands Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.52:   Netherlands Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.53:   List of Power-to-Gas Plants in Rest-of-Europe
Table 8.54:   Rest-of-Europe Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.55:   Rest-of-Europe Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.56:   Rest-of-Europe Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.57:   Rest-of-Europe Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.58:   Rest-of-Europe Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.59:   Rest-of-Europe Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.60:   Asia-Pacific Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.61:   Asia-Pacific Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.62:   Asia-Pacific Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.63:   Asia-Pacific Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.64:   Asia-Pacific Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.65:   Asia-Pacific Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.66:   Asia-Pacific Power-to-Gas Market (by Country), Kilowatt, 2014-2024
Table 8.67:   Asia-Pacific Power-to-Gas Market (by Country), Units, 2014-2024
Table 8.68:   List of Power-to-Gas Plants in China
Table 8.69:   China Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.70:   China Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.71:   China Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.72:   China Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.73:   China Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.74:   China Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.75:   List of Power-to-Gas Plants in Japan
Table 8.76:   Japan Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.77:   Japan Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.78:   Japan Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.79:   Japan Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.80:   Japan Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.81:   Japan Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.82:   List of Power-to-Gas Plants in Australia
Table 8.83:   Australia Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.84:   Australia Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.85:   Australia Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.86:   Australia Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.87:   Australia Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.88:   Australia Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.89:   List of Power-to-Gas Plants in Rest-of-APAC
Table 8.90:   Rest-of-Asia-Pacific Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.91:   Rest-of-Asia-Pacific Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.92:   Rest-of-Asia-Pacific Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.93:   Rest-of-Asia-Pacific Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.94:   Rest-of-Asia-Pacific Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.95:   Rest-of-Asia-Pacific Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.96:   North America Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.97:   North America Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.98:   North America Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.99:   North America Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.100:   North America Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.101:   North America Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.102:   North America Power-to-Gas Market (by Country), Kilowatt, 2014-2024
Table 8.103:   North America Power-to-Gas Market (by Country), Units, 2014-2024
Table 8.104:   List of Power-to-Gas Plants in the U.S.
Table 8.105:   U.S. Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.106:   U.S. Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.107:   U.S. Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.108:   U.S. Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.109:   U.S. Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.110:   U.S. Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.111:   List of Power-to-Gas Plants in Canada
Table 8.112:   Canada Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.113:   Canada Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.114:   Canada Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.115:   Canada Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.116:   Canada Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.117:   Canada Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.118:   Rest-of-the-World Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.119:   Rest-of-the-World Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.120:   Rest-of-the-World Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.121:   Rest-of-the-World Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.122:   Rest-of-the-World Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.123:   Rest-of-the-World Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.124:   List of Power-to-Gas Plants in Middle East and Africa
Table 8.125:   Middle East and Africa Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.126:   Middle East and Africa Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.127:   Middle East and Africa Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.128:   Middle East and Africa Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.129:   Middle East and Africa Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.130:   Middle East and Africa Power-to-Gas Market (by Product), Units, 2014-2024
Table 8.131:   List of Power-to-Gas Plants in South America
Table 8.132:   South America Power-to-Gas Market (by Electrolyzer Technology), Kilowatt, 2014-2024
Table 8.133:   South America Power-to-Gas Market (by Electrolyzer Technology), Units, 2014-2024
Table 8.134:   South America Power-to-Gas Market (by Methanation Technology), Kilowatt, 2014-2024
Table 8.135:   South America Power-to-Gas Market (by Methanation Technology), Units, 2014-2024
Table 8.136:   South America Power-to-Gas Market (by Product), Kilowatt, 2014-2024
Table 8.137:   South America Power-to-Gas Market (by Product), Units, 2014-2024

Figure 1:   Supply Chain of Power-to-Gas
Figure 2:   The Valley of Death Scenario of Power-to-Gas
Figure 3:   Global Power-to-Gas Market Overview, 2018-2024
Figure 4:   Global Power-to-Gas Market (by Product Type), 2018 to 2024
Figure 5:   Global Power-to-Gas Market Analysis (by Electrolysis Technology)
Figure 6:   Global Power-to-Gas Market Analysis (by Methanation Technology)
Figure 7:   Global Power-to-Gas Market (by Region), 2018
Figure 1.1:   Market Dynamics: Global Power-to-Gas Market
Figure 1.2:   Primary Energy Consumption by Region (2010-2018)
Figure 2.1:   Share of Key Market Strategies and Developments, 2015-2020
Figure 2.2:   Key Business Expansion Activities (2015-2020)
Figure 2.3:   Partnership, Collaborations, and Contracts (2015-2020)
Figure 2.4:   Investment and Funding (2015-2020)
Figure 2.5:   Mergers, Acquisitions and Joint Ventures (2015-2020)
Figure 2.6:   Product Launches (2015-2020)
Figure 2.7:   Other Key Developments (2015-2020)
Figure 3.1:   Year-Wise Patents Filed for Power-to-Gas Market, 2013-2019
Figure 3.2:   Patent Analysis (by Purpose), 2013 to 2019
Figure 3.3:   Patent Analysis (by Status), 2013 to 2019
Figure 3.4:   Patent Analysis (by Country), 2013 to 2019
Figure 3.5:   Patent Analysis (by Company), 2013 to 2019
Figure 3.6:   Global Power-to-Gas Market Supply Chain
Figure 3.7:   Porters Five Forces Analysis
Figure 4.1:   Technologies Used in the Power-to-Gas Market
Figure 5.1:   Different Products in the Power-to-Gas Market
Figure 6.1:   End-Users in the Power-to-Gas Market
Figure 7.1:   Comparison of Current and Anticipated Efficiency and Investment Cost of Different Technologies
Figure 7.2:   Cost Development of Electrolysis Systems Related to Scaling and Technological Learning
Figure 7.3:   Cost Development of Methanation Systems Related to Scaling Effects and Technological Learning
Figure 8.1:   Global Power-to-Gas Market – Regional Segmentation
Figure 9.1:   Aquahydrex, Inc.: Product Portfolio
Figure 9.2:   Electrochaea GmbH: Product Portfolio
Figure 9.3:   EXYTRON GmbH: Product Portfolio
Figure 9.4:   Hitachi Zosen Corporation: Product Portfolio
Figure 9.5:   Hitachi Zosen Corporation: Overall Financials, 2016-2018
Figure 9.6:   Hitachi Zosen Corporation: Net Revenue (by Region), 2016-2018
Figure 9.7:   Hitachi Zosen Corporation: Net Revenue (by Business Segment), 2016-2018
Figure 9.8:   Research and Development: 2016-2018
Figure 9.9:   Hydrogenics Corporation: Product Portfolio
Figure 9.10:   Hydrogenics Corporation: Overall Financials, 2016-2018
Figure 9.11:   Hydrogenics Corporation: Net Revenue (by Region), 2016-2018
Figure 9.12:   Hydrogenics Corporation: Net Revenue (by Business Segment), 2016-2018
Figure 9.13:   Research and Development: 2016-2018
Figure 9.14:   ITM Power PLC: Product Portfolio
Figure 9.15:   ITM Power PLC: Overall Financials, 2017-2019
Figure 9.16:   ITM Power PLC: Net Revenue (by Region), 2018-2019
Figure 9.17:   ITM Power PLC: Net Revenue (by Region), 2017
Figure 9.18:   ITM Power PLC: Net Revenue (by Business Segment), 2017-2019
Figure 9.19:   Research and Development: 2017-2019
Figure 9.20:   MAN Energy Solutions: Product Portfolio
Figure 9.21:   McPhy Energy S.A.: Overall Product Portfolio
Figure 9.22:   McPhy Energy S.A.: Overall Financials, 2016-2018
Figure 9.23:   MicroPyros GmbH: Product Portfolio
Figure 9.24:   Nel ASA: Product Portfolio
Figure 9.25:   Nel ASA: Overall Financials, 2016-2018
Figure 9.26:   Nel ASA: Net Revenue (by Region), 2017 and 2018
Figure 9.27:   Nel ASA: Net Revenue (by Region), 2016
Figure 9.28:   Nel ASA: Net Revenue (by Business Segment), 2016-2018
Figure 9.29:   Power-to-Gas Hungary Kft.: Product Portfolio
Figure 9.30:   Siemens AG: Product Portfolio
Figure 9.31:   Siemens AG: Overall Financials, 2016-2018
Figure 9.32:   Siemens AG: Net Revenue (by Region), 2016-2018
Figure 9.33:   Siemens AG: Net Revenue (by Business Segment), 2016-2018
Figure 9.34:   Southern California Gas Company: Product Portfolio
Figure 9.35:   thyssenkrupp AG: Product Portfolio
Figure 9.36:   thyssenkrupp AG: Overall Financials, 2017-2019
Figure 9.37:   thyssenkrupp AG: Net Revenue (by Region), 2017-2019
Figure 9.38:   thyssenkrupp AG: Net Revenue (by Business Segment), 2018 and 2019
Figure 9.39:   thyssenkrupp AG: Net Revenue (by Business Segment), 2017
Figure 9.40:   Research and Development, 2017-2019
Figure 9.41:   Uniper SE: Product Portfolio
Figure 9.42:   Uniper SE: Overall Financials, 2016-2018
Figure 9.43:   Uniper SE: Net Revenue (by Region), 2016-2018
Figure 9.44:   Uniper SE: Net Revenue (by Business Segment), 2016-2018
Figure 11.1:   Global Power-to-Gas Market Coverage
Figure 11.2:   Segmentations for Market Estimation in the Global Power-to-Gas Market
Figure 11.3:   Report Design
Figure 11.4:   Primary Interviews (by Player, Designation, and Region)
Figure 11.5:   Data Triangulation
Figure 11.6:   Top-Down and Bottom-Up Approach

Market Overview

Market Overview and Estimation

Market Dynamics
Growth Drivers	• Transition Toward Renewable Sources of Energy • Government Initiatives to Reduce Carbon Dioxide Emissions
Market Restraints	• High Investment Cost of Power-to-Gas Facility • Infrastructural Barriers in Terms of Gas Network
Market Opportunities	• Growing Demand for Hydrogen as a Green Transportation Fuel • Rising Need for Flexibility in Energy Storage • Stringent Regulations that Promote Emission Reduction in Manufacturing and Power Industries

Growth Factors

Transition to renewable sources of energy: Several countries are moving towards renewable resources and making investments through research and development so as to make a significant transition toward decarbonization. The fossil fuel reserves are limited and unable to suffice the ever-rising energy demand of the world and hence, it is crucial to come up with technological creativity to induce renewable resources to meet the energy demand. Owing to environment concern, regions such as Europe have undertaken ambitious targets to include renewable sources of energy and minimize their overall energy consumption. Countries such as Spain are good examples where targets have been set to cover the energy demand through 100% renewable resources by 2050. The initial goal however is to achieve 42% of the energy demand being met by renewable resources by 2030.
Initiatives to reduce carbon dioxide emissions: The concept of carbon footprint has made both the consumers and the producers aware of the amount of carbon dioxide emitted and about its perilous consequences on the environment. The world is now laying emphasis on reduction of carbon footprint, thus, emerges the need for products that are environment friendly and require renewable resources in their making. An upsurge in the demand for power-to-gas technology is largely being witnessed due to the increasing awareness to cut down on the carbon dioxide emissions. The Paris agreement and its mandate for different countries to take measurable steps to minimize the average global temperature therefore becomes a vital initiation to curb the harmful impact on climate. Several end-user industries across the globe have to pay carbon taxes on the amount of carbon dioxide emitted. These industries, therefore, have the incentive to invest into power-to-gas technology to curb their emissions and generate fuels as a product out of the plant. The government-levied carbon taxes, targets and policies in certain cases (especially in Europe) have successfully helped in plummeting the consumption of fossil fuels. From the consumption point of view, the targets play a massive role in the growth of power-to-gas technology.

Key Questions Answered in this Report

• Why should an investor consider venturing into the power-to-gas market, and what are the future growth opportunities?
• For a new company looking to enter into the market, which areas could it focus upon to stay ahead of the competition?
• How do the existing market players function to improve their market positioning?
• How does the supply chain function in the global power-to-gas market?
• Which companies have been actively involved in innovation through patent applications, and which products have witnessed maximum patent applications during the period 2013-2019?
• Which product and technology segments respectively in the power-to-gas market, are estimated to witness the maximum demand during 2014-2024 and how does their growth pattern vary across different regions and countries?
• Which are the key application areas in the power-to-gas market?
• Which regions and countries are leading in terms of power-to-gas plant set ups and which of them are estimated to witness high demand growth in the period 2014-2024?

Report Description

Market Report Coverage - Global Power-to-Gas Market
Base Year	2018	Market Size in 2018 (Additional Capacity)	27589.0 KW
Market Segmentation	• Technology – Electrolysis and Methanation • Product – Hydrogen and Methane • End-User - Steel Industry, Transportation, Gas Grid, and Others
Regional Segmentation	• Europe – Germany, France, Demark, U.K., Switzerland, Netherlands, and Rest-of-the-World • Asia-Pacific – China, Japan, Australia, and Rest-of-the-Asia-Pacific • North America – U.S and Canada • Rest-of-the-World - Middle East and Africa and South America
Key Companies Profiled	The key market players in the global power-to-gas market include Aquahydrex, Inc., Electrochaea GmbH, EXYTRON GmbH, Hitachi Zosen Corporation, Hydrogenics Corporation, ITM Power PLC, MAN Energy Solutions,McPhy Energy S.A., MicroPyros GmbH, Nel ASA, Power-to-Gas Hungary Kft., Siemens AG, Southern California Gas Company, thyssenkrupp AG, and Uniper SE.

Market Outlook by Technology

By Product

By Region

Power To Gas Market

15+

Companies-Reached

270+

Research Hours

158+

Tables

80+

Figures

223+

Pages

Global Power-to-Gas Market – Analysis and Forecast, 2014-2024

Focus on Product, Technology, and Region

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Global Power-to-Gas Market – Analysis and Forecast, 2014-2024

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Report Description

Key Questions Answered in this Report

Market Overview

Table of Contents