Choosing the right Solar Module Manufacturers is crucial for ensuring the quality and efficiency of your solar energy system. Sure, here are some tips for finding the right Solar Panels Manufacturers in India.

Revolutionizing Green Energy: Leading Hydrogen Electrolyzer Manufacturers in India

In the pursuit of sustainable energy solutions, hydrogen has emerged as a promising candidate, offering a clean and renewable alternative to fossil fuels. Central to the production of hydrogen is the process of electrolysis, which splits water into its constituent elements using electricity. In India, amidst the burgeoning interest in green energy, several manufacturers are spearheading the production of hydrogen electrolyzers, with one standout player being GreenH Electrolysis.

GreenH Electrolysis has carved a niche for itself in the Indian market as a leading manufacturer of cutting-edge hydrogen electrolyzer systems. Established with a vision to drive the transition towards a carbon-neutral future, the company combines innovation, expertise, and a commitment to sustainability in its pursuit of excellence.

At the heart of GreenH Electrolysis's operations lies a dedication to research and development. The company continuously invests in R&D efforts to enhance the efficiency, reliability, and affordability of its electrolyzer technologies. By leveraging the latest advancements in materials science, electrochemistry, and process engineering, GreenH Electrolysis has been able to develop state-of-the-art electrolyzer systems that set new benchmarks in performance and sustainability.

One of the key distinguishing features of GreenH Electrolysis's electrolyzer solutions is their scalability. Recognizing the diverse needs of different industries and applications, the company offers a range of electrolyzer models that can be tailored to meet specific requirements. Whether it's for large-scale industrial installations or decentralized hydrogen production units, GreenH Electrolysis provides flexible and customizable solutions that deliver optimal performance across various operating conditions.

Moreover, GreenH Electrolysis places a strong emphasis on sustainability throughout its value chain. From the sourcing of raw materials to the manufacturing process and beyond, the company prioritizes eco-friendly practices and strives to minimize its environmental footprint. By incorporating elements such as energy-efficient designs, recyclable materials, and green manufacturing processes, GreenH Electrolysis ensures that its products not only contribute to the green energy transition but also adhere to the principles of environmental stewardship.

In addition to their technological prowess, GreenH Electrolysis's electrolyzer systems are backed by a comprehensive suite of support services. From initial consultation and system design to installation, commissioning, and ongoing maintenance, the company provides end-to-end support to its customers, ensuring a seamless experience from start to finish. This commitment to customer satisfaction has earned GreenH Electrolysis a reputation for reliability and trustworthiness in the market.

Furthermore, GreenH Electrolysis is actively involved in collaborative initiatives aimed at advancing the adoption of hydrogen as a clean energy carrier in India. By partnering with government agencies, research institutions, and industry stakeholders, the company seeks to promote awareness, foster innovation, and create an enabling ecosystem for hydrogen technology deployment. Through participation in pilot projects, feasibility studies, and policy advocacy efforts, GreenH Electrolysis is playing a proactive role in shaping the future of green energy in the country.

Looking ahead, the prospects for hydrogen electrolysis in India appear promising, driven by growing recognition of its potential to address the dual challenges of energy security and climate change. As the demand for clean hydrogen continues to rise across sectors such as transportation, industry, and power generation, manufacturers like GreenH Electrolysis are poised to play a pivotal role in catalyzing this transition. By delivering reliable, efficient, and sustainable electrolyzer solutions, GreenH Electrolysis is not only revolutionizing green energy in India but also contributing to a cleaner, greener future for generations to come.

In conclusion, GreenH Electrolysis stands out as a leading player in the field of hydrogen electrolyzer manufacturing in India, driven by its commitment to innovation, sustainability, and customer satisfaction. With its state-of-the-art technologies, scalable solutions, and collaborative approach, the company is at the forefront of revolutionizing green energy and paving the way for a hydrogen-powered future in India and beyond.

The Green Energy Sector in India Set to Attract $800 Billion Investments in the Next Decade

Introduction:

Investment in the Indian green energy sector is poised to reach staggering heights, with projections suggesting a potential influx of $800 billion over the next decade. This forecast was presented by Debasish Purohit, co-head of investment banking for Bank of America in India. The energy transition theme, which encompasses various segments such as green hydrogen, storage, and component manufacturing, is expected to draw investments from Indian corporates, foreign strategic investors, and sponsors. The nation's scale makes it an attractive destination for strategic investors aiming to achieve net-zero targets. In this blog post, we will explore the significant investment potential in India's green energy sector and the ambitions of key players in the industry.

Rising Investment Potential:

Bank of America predicts that the renewable energy sector alone will attract approximately $250 billion in investments over the next decade. Additionally, batteries are expected to draw around $250 million in investments while supporting grid infrastructure, and other segments like green hydrogen, equipment, and systems may collectively receive $300 billion in total investment. These substantial figures underscore the immense opportunities present in India's green energy landscape.

Corporate Initiatives:

India's corporate sector has wholeheartedly embraced the green energy revolution, with numerous companies announcing ambitious plans to transition into sustainable practices. Reliance Industries, for example, aims to achieve carbon neutrality by 2035. Goldman Sachs reports that Reliance Industries has invested over $1.5 billion in solar, battery, and hydrogen capacities to offset emissions from its oil and petrochemicals business. The conglomerate has also prioritized the manufacturing of various components, such as polysilicon, wafers, cells, modules, electric vehicles, grid storage batteries, electrolyzers, and fuel cells. Similarly, other prominent conglomerates like the Adani group and the Tatas have outlined their own green energy investment plans, contributing to the sector's growth.

Bank of America's Involvement:

As a significant player in the financial sector, Bank of America has actively advised on several green energy and renewables deals, amounting to over $5 billion. Notable transactions include acting as an advisor to Actis LLP in the $1.6 billion sale of Sprng Energy to Shell and assisting TPG Rise in its $1 billion investment in Tata Motors' electric vehicle business. Over the past year, prominent conglomerates like the Tata Group, Mahindra Group, and the TVS Group have sought to raise capital for their electric vehicle businesses, further highlighting the growing interest and opportunities in the sector.

Market Dynamics and Trends:

In recent weeks, block deals and the primary IPO market have witnessed increased activity across various segments. Bank of America's involvement in advising Tencent on a block trade in Policybazaar and managing other block deals, including in Zomato Ltd, demonstrates the bank's continued presence in the market. The consumer technology segment has experienced a valuation reset, with new private raisings limited to select top-quartile companies. Although absolute valuation levels have been protected, multiples have seen a decline in consumer tech companies. Block deals in the listed space have remained steady, albeit with smaller transaction sizes, indicating sellers' inclination to partially monetize their assets while retaining the potential for future gains in a favorable market environment.

Conclusion:

India's green energy sector is on the cusp of a monumental transformation, with projections indicating the potential for $800 billion in investments over the next decade. The energy transition theme, spanning green hydrogen, storage, and component manufacturing, has attracted the attention of both domestic and foreign investors, given India's scale and potential for achieving net-zero targets. Key players in the corporate sector, including Reliance Industries, the Adani group, and the Tatas, have already announced ambitious plans to foray into green energy. Bank of America's active involvement in facilitating green energy deals highlights the financial sector's recognition of the sector's immense growth potential. With a renewed focus on sustainable practices and increasing investor interest, India is poised to become a global leader in the green energy revolution.

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BDB is a Best Customer Feedback Research Companies in India

BDB is a Best Customer Feedback Research Companies in India

 BDB India Private Limited is a leading global business strategy consulting and market research company in India. Since 1989, BDB has been providing clients with solutions to expand their businesses in the Indian and international marketplace. We are an ISO certified company. BDB India is the leading global business strategy consulting and market research firm for automotive industry. BDB is a Best Customer Feedback Research Companies in India

Green Hydrogen

Green hydrogen refers to hydrogen produced through a process that uses renewable energy sources, such as wind, solar, or hydroelectric power, to power the electrolysis of water. The electrolysis process involves splitting water molecules (H2O) into hydrogen (H2) and oxygen (O2), without generating carbon emissions. This method contrasts with traditional hydrogen production, such as steam methane reforming, which relies on fossil fuels and generates greenhouse gas emissions.

In India, the green hydrogen market is expected to be worth $30-35 billion by 2035-2040 (assuming optimistic demand). In India, the green hydrogen market (sales) is expected to reach $10 billion by 2030 and $35 billion by 2040 (per annum estimates). Major industries like as transportation and industrial production rely heavily on imported fossil fuels. Today, hydrogen is required for a variety of reasons. Green hydrogen production using renewable energy can play a critical part in low-carbon and self-sufficient economic routes. The use of Green Hydrogen and its derivatives, the machinery and technology used, and the infrastructure development associated with it in many new programs in the country, such as green fuel, green energy, green mobility, green farming, green buildings and equipment, and policies for efficient use of this energy source in various economic sectors, will mean that the industry is bound to see exponential growth in the demand for Green Hydrogen and its derivatives, the machinery and technology used, and the infrastructure development associated with it[/vc_column_text]

The key steps in green hydrogen production

lectrolysis: Renewable electricity (from sources like solar or wind power) powers an electrolyzer, which splits water into hydrogen and oxygen. The process separates hydrogen from water, generating ‘green’ hydrogen without producing greenhouse gases or other harmful emissions.

Renewable Energy Sources: The renewable energy sources used for electrolysis are crucial in making the overall process environmentally friendly. By utilizing solar, wind, or hydroelectric power, the entire hydrogen production cycle becomes sustainable and emission-free. Green hydrogen holds immense promise as a clean, sustainable energy carrier. It can be used in various sectors and industries, including transportation, power generation, industrial processes, and energy storage. The widespread adoption of green hydrogen is integral to reducing carbon emissions and mitigating climate change by providing a versatile and low-carbon energy source.

Green Hydrogen Manufacturing

Green hydrogen manufacturing involves the production of hydrogen through an environmentally sustainable process using renewable energy sources. The process typically involves the following steps:

ELECTROLYSIS Electrolysis is the core process used to produce green hydrogen. Water (H2O) is separated into its components—hydrogen (H2) and oxygen (O2)—through the application of an electric current. This occurs within an electrolyzer, a device that contains an anode and a cathode separated by an electrolyte.

RENEWABLE ENERGY INPUT The electricity used in the electrolysis process comes from renewable sources such as solar, wind, or hydroelectric power. These sources ensure that the overall hydrogen production cycle is environmentally friendly and does not generate carbon emissions

TYPES OF ELECTROLYZERS There are different types of electrolyzers used for hydrogen production, including alkaline electrolyzers, polymer electrolyte membrane (PEM) electrolyzers, and solid  oxide electrolyzers. Each type has its advantages in terms of efficiency, scalability, and operating conditions.

SCALING UP PRODUCTION Green hydrogen manufacturing involves setting up electrolysis plants that can scale up production to meet demand. These plants may range from small-scale installations to large industrial facilities.

STORAGE AND DISTRIBUTION Once produced, green hydrogen needs to be stored and distributed. Storage methods can include compressed gas, liquefaction, or conversion into other forms such as ammonia for easier transport. Infrastructure for transporting and utilizing hydrogen as an energy carrier also needs to be developed.

Challenges in Green Hydrogen Manufacturing

Cost: One of the primary challenges is the cost of production. Currently, green hydrogen is more expensive to produce compared to hydrogen generated from  fossil fuel-based processes.

Efficiency: Improving the efficiency of electrolysis processes and reducing energy losses is crucial to make green hydrogen more cost-effective.

Infrastructure: Developing infrastructure for large-scale hydrogen production, storage, and distribution is essential for its widespread adoption.

Technological Advancements: Research and development are ongoing to improve the performance and reduce the costs of electrolyzers and associated technologies

The future of green hydrogen manufacturing in India and worldwide largely depends on advancements in technology, reduced production costs, supportive government policies, and collaborative efforts among various stakeholders to drive sustainable and efficient production processes. As technology advances and economies of scale are achieved, green hydrogen manufacturing is poised to play a pivotal role in transitioning towards a more sustainable and low-carbon energy future.

Components of the Green Hydrogen Mission

Facilitating demand creation through exports and domestic utilization

Strategic Interventions for Green Hydrogen Transition (SIGHT) programme to support domestic manufacturing of electrolysers and production of Green Hydrogen

Pilot Projects for green steel, mobility, shipping, decentralized energy applications, hydrogen production from biomass, hydrogen storage, etc.

Development of Green Hydrogen Hubs

Support for infrastructure developments

Establishing a robust framework of regulations and standards

Research & Development programme

Skill development programme

Public awareness and outreach programme

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India’s Green Hydrogen Mission: Path to a Greener Future

The Green Hydrogen Mission is a national initiative in India that aims to establish the country as a global hub for green hydrogen production, usage, and export. The mission involves promoting research and development in green hydrogen technologies, building necessary infrastructure, and creating a supportive policy and regulatory environment for the growth of the green hydrogen industry. The mission is a part of India’s strategic transition towards a sustainable and greener future.

What is Green Hydrogen?

Green hydrogen is hydrogen gas produced through renewable energy sources like solar, wind, or hydropower using a process called electrolysis. Electrolysis involves passing an electric current through water, causing the water molecules to separate into hydrogen and oxygen. This carbon-free method distinguishes green hydrogen from grey and blue hydrogen, which are derived from fossil fuels. Grey hydrogen is produced from natural gas without carbon capture and storage (CCS) technology, while blue hydrogen uses CCS to reduce carbon emissions. As a sustainable and environmentally friendly alternative to traditional fossil fuels, green hydrogen is expected to play a significant role in future energy systems.

How Green Hydrogen Works?

Producing green hydrogen requires electrolyzers powered by renewable energy sources. These devices use electricity to split water molecules into hydrogen and oxygen while capturing the hydrogen. Green hydrogen can be stored in high-pressure tanks, metal hydrides, or liquid organic hydrogen carriers (LOHCs), which enable safe and efficient storage.

Transportation of green hydrogen primarily relies on pipelines, trucks, and ships, with ongoing research into new methods to improve efficiency, reduce costs, and minimize environmental impacts.

The Future of Green Hydrogen

Green hydrogen holds substantial potential as a clean and sustainable energy source, with applications spanning from fuel for transportation to power generation and industrial processes.

As a crucial component in the global energy transition, green hydrogen aims to reduce greenhouse gas emissions and decrease dependence on fossil fuels. However, its widespread adoption depends on addressing challenges in production, storage, and transportation, alongside ensuring economic viability.

With technological advancements and an increasing focus on renewable energy sources, green hydrogen is expected to play a more significant role in the future. Experts predict that green hydrogen could supply up to 25% of the world’s energy needs by 2050, paving the way for a cleaner and more sustainable future. Additionally, green hydrogen can help countries achieve their climate targets under the Paris Agreement, further emphasizing its importance in the global fight against climate change.

The mission focuses on research, development, and large-scale adoption of green hydrogen, aiming to harness India’s vast renewable energy potential and support the nation’s energy transition.

Key players in India’s green hydrogen industry include Larsen & Toubro, Tata Power, and Indian Oil Corporation, among others. These companies are investing in research and development, production facilities, and partnerships to strengthen India’s position in the global green hydrogen market. The mission also encourages the development of domestic manufacturing capabilities for electrolyzers, helping to boost local industries and create employment opportunities.

Applications of Green Hydrogen

The versatility of green hydrogen makes it an attractive energy solution for various sectors. Some of its primary applications include:

Transportation: Green hydrogen can be used as a clean fuel in fuel cell electric vehicles (FCEVs), including cars, buses, and heavy-duty trucks. FCEVs generate electricity from hydrogen through a chemical reaction with oxygen, producing water vapour as the only emission. This makes them a promising alternative to traditional internal combustion engine vehicles, reducing greenhouse gas emissions and air pollution.

Aviation and Maritime: The aviation and maritime industries are exploring green hydrogen and its derivatives, such as ammonia and methanol, as alternative fuels. These industries face unique challenges in reducing emissions due to the energy density requirements of long-distance travel. Green hydrogen and its derivatives can help them achieve their sustainability goals and contribute to global efforts to combat climate change.

Power Generation: Green hydrogen can complement intermittent renewable energy sources like solar and wind by providing stable and reliable power during periods of low generation. When the energy demand is higher than the available renewable energy supply, green hydrogen can be converted back into electricity through fuel cells or gas turbines. This enables efficient energy storage and utilization, promoting the integration of renewable energy into the grid.

Industrial Processes: Green hydrogen can be used as a feedstock in energy-intensive industries, such as steel and cement production. By replacing fossil fuels with green hydrogen, these industries can reduce their carbon footprint and contribute to global emissions reduction targets. Green hydrogen can also serve as a feedstock for producing ammonia, methanol, and other chemicals, fostering a greener chemical industry.

Challenges and Opportunities in Green Hydrogen

Despite its immense potential, the green hydrogen industry faces several challenges that must be addressed to ensure its widespread adoption and success. Some of these challenges include:

Production Costs: Currently, green hydrogen production costs are relatively high compared to traditional fossil fuels like petrol and diesel. The costs are more than 4–5 times higher. The cost of electrolyzers, renewable energy infrastructure, and other components required for green hydrogen production contributes to its higher price. To overcome this challenge, investments in research and development are needed to improve production technologies and reduce costs.

Storage and Transportation: Storing and transporting green hydrogen presents unique challenges due to its low energy density and the need for high-pressure or cryogenic storage systems. Ongoing research in storage technologies, such as metal hydrides and LOHCs, aims to address these challenges and develop more efficient, cost-effective solutions.

Infrastructure Development: The widespread adoption of green hydrogen requires the development of extensive infrastructure, including production facilities, pipelines, refuelling stations, and more. Governments and private investors must collaborate to fund and construct the necessary infrastructure, creating an environment that supports the growth of the green hydrogen industry.

Policy and Regulation: As a young industry, green hydrogen requires supportive policies and regulations to encourage investment, research, and adoption. Governments must implement policies that incentivize green hydrogen production and use, such as tax breaks, subsidies, and carbon pricing, to accelerate the transition to a green hydrogen economy.

Despite these challenges, the green hydrogen industry presents numerous opportunities for growth and innovation. The potential to transform the energy sector, reduce greenhouse gas emissions, and contribute to a more sustainable future makes green hydrogen an attractive prospect for governments, businesses, and investors. By working together to address the challenges and capitalize on the opportunities, the world can create a thriving green hydrogen industry that benefits people, the economy, and the environment.

Requirements for the Success of India’s National Green Hydrogen Mission

Need for Public Awareness and Engagement

Green hydrogen offers a promising pathway to a cleaner and more sustainable energy future. By addressing the challenges and harnessing the opportunities, the world can realize the full potential of green hydrogen and make significant strides in combating climate change. Education, public awareness, and engagement are essential components of this journey, empowering individuals and communities to contribute to the global effort to build a greener, more prosperous future.

Need for Investment and Financing

The green hydrogen industry requires significant investments to achieve its potential. Governments, private investors, and financial institutions must come together to provide the necessary capital for green hydrogen projects, including research and development, infrastructure construction, and skills training.

Public-private partnerships can be an effective way to mobilize investments and share risks, making green hydrogen projects more attractive to investors. Additionally, governments can use financial instruments such as grants, loans, and guarantees to support green hydrogen initiatives.

Green hydrogen has the potential to revolutionize the global energy landscape by offering a…..

To read the full article: India’s Green Hydrogen Mission: Path to a Greener Future

Green Hydrogen Market Technologies, Applications, Strategies & Forecast 2028

What Is Green Hydrogen?

Green hydrogen is generated by the electrolysis of water using renewable energy sources such as wind or solar energy.

Presence of favorable government policies encouraging hydrogen economies, as well as environmental concerns about rising carbon emissions from fossil fuel use, are expected to fuel demand for hydrogen.

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The global green hydrogen market size was valued at $0.3 billion in 2020, and is projected to reach $9.8 billion by 2028, growing at a CAGR of 54.7% from 2021 to 2028.

Some of the key players operating in the global green hydrogen market are Ballard Power Systems, Enapter, Engie, Green Hydrogen Systems, Hydrogenics, Nikola Motors, Plug Power, SGH2 Energy Global LLC, Shell, and Siemens Gas and Power GmbH & Co. KG.

Rise in concern toward reducing carbon emissions and expansion of green hydrogen production technologies have boosted the growth of the green hydrogen market.

Countries such as the U.S., China, and India are emerging as investment centric hubs due to wide scope of green hydrogen in the manufacturing sector.

On the basis of end-use industry, the market is divided into food & beverages, medical, chemical, petrochemicals, glass, and others. The petrochemicals segment is projected to portray the highest CAGR of 55.0% during the forecast period.

Based on technology, the market is classified into proton exchange membrane electrolyzer, alkaline electrolyzer, and solid oxide electrolyzer. The alkaline electrolyzer segment held the lion’s share in 2019, accounting for more than half of the market. In addition, the segment is expected to register the highest CAGR of 54.8% during the forecast period.

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By application, the power generation segment held the highest share in 2020, accounting for nearly two-thirds of the global green hydrogen market, and is expected to maintain its lead position during the forecast period. Moreover, the segment is also expected to witness the largest CAGR of 54.9% from 2021 to 2028.

Electrolyzers are getting highly demanded for power generation as a clean energy source, which in turn, propels the growth of the segment.

By region, the green hydrogen market is dominated by Europe. The area has extensive oil & gas infrastructure, which has enormous potential to be transformed into hydrogen production, storage, and transportation infrastructure while also creating jobs.

The green hydrogen market was slightly affected by the Covid-19 pandemic. The lockdown across several countries posed several challenges for industry participants such as logistical difficulties in end goods, disruption of supply chains, and recruitment of workforce during the pandemic.

However, the market recovered in the third and fourth quarter, majorly in North America and Europe regions. And with relaxed restrictions the market is expected to recoup rapidly in other regions.

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Chlor-Alkali Market Forecast to 2028 - Covid-19 Impact and Global Analysis - by Source; Function; Application and Geography

Global Chlor-Alkali Market was valued at USD 91.55 billion in 2021 and is expected to reach USD 118.86 billion by the year 2028, at a CAGR of 3.8%.

Chlor-alkali refers to the two chemicals such as chlorine and alkali which are concurrently manufactured as a result of the electrolysis of salt water. The most common chlor-alkali chemicals are chlorine and caustic soda (sodium hydroxide) but can include potassium hydroxide and muriatic acid. There are three types of electrolytic processes utilized in the production of chlorine and caustic soda such as the diaphragm cell process, the membrane cell process, and the mercury cell process. In the mercury cell process, chlorine and sodium hydroxide are manufactured all together by electrolyzing seawater (sodium salt water or brine) in a mercury cell. The chlor-alkali process makes usages of cation exchange membrane technology, which is the most advanced, very efficient, and the most environmentally friendly Chlor-alkali technology producing high-quality products meeting a wide range of demanding applications such as Soaps and Detergents, Paper and Pulp, Pharmaceuticals, Organic chemical, Inorganic chemical, Textiles, Alumina, Textile, Water Treatment, Chemical Processing, and Others.

The research covers factors impacting the top market participants as well as current technical breakthroughs. The study includes thorough statistical data to assist top organizations in better understanding the industry's operations. The report examines every major organization and actor involved in industrial growth, as well as providing a complete assessment of the competitive environment. In addition, the inquiry looks into market challenges, opportunities, constraints, development drivers, trends, and the company production network, among other things. It also provides information about each section's attractiveness, as well as its growth rate and market size, which aids in determining which segment to invest in or promote.

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Key Industry Players in the Chlor-Alkali Market:

·         Olin Corporation(US)

·         Westlake Chemical Corporation (US)

·         Tata Chemicals Limited (India)

·         Occidental Petroleum Corporation (US)

·         Formosa Plastics Corporation (Taiwan)

·         Solvay SA (Belgium)

·         Tosoh Corporation (Japan)

·         Hanwha Solutions Corporation (South Korea)

·         Nirma Limited (India)

·         AGC Inc. (Japan)

·         Dow Inc. (US)

·         Xinjiang Zhongtai Chemical Co. Ltd. (China)

·         INOVYN (UK)

·         Ciner Resources Corporation (US)

·         Wanhua-Borsodchem (Hungary) and other major players.

 Chlor-alkali products such as chlorine, caustic soda, and soda ash play a vital role in the chemical industry. These products are necessary raw materials in major bulk chemical industries and utilized in various industrial and manufacturing value chains. The products are used in different applications such as plastics, alumina, paper & pulp, and others and find applications in diverse end-use industries (construction, automotive, and others). Thus, rising chemical output and strong economic conditions in emerging countries are expected to drive the growth of the chlor-alkali market.

Segmentation Analysis Includes,

By Type:

·         Caustic Soda

·         Chlorine

·         Soda Ash

·         Others

By End Users:

·         Soaps & Detergents

·         Paper & Pulp

·         Organic Chemical

·         Water Treatment

·         Others

By Distribution Channels:

·         Direct Sales

·         Specialty Stores

·         Warehouses

·         Online

·         Others

By Region:

·         North America (U.S., Canada, Mexico)

·         Europe (Germany, U.K., France, Italy, Russia, Spain, Rest of Europe)

·         Asia-Pacific (China, India, Japan, Singapore, Australia, New Zealand, Rest of APAC)

·         Middle East & Africa (Turkey, Saudi Arabia, Iran, UAE, Africa, Rest of MEA)

·         South America (Brazil, Argentina, Rest of SA)

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Table of Content:

Chapter 1: Introduction

Chapter 2: Executive Summary

Chapter 3: Growth Opportunities By Segment

Chapter 4: Market Landscape

Chapter 5: Chlor-Alkali Market by Type

Chapter 6: Chlor-Alkali Market by End Users

Chapter 7: Chlor-Alkali Market by Distribution Channels

Chapter 8: Company Profiles and Competitive Analysis

Chapter 9: Global Chlor-Alkali Market Analysis, Insights and Forecast, 2016-2028

Chapter 10: North America Chlor-Alkali Market Analysis, Insights and Forecast, 2016-2028

Chapter 11: Europe Chlor-Alkali Market Analysis, Insights and Forecast, 2016-2028

Chapter 12: Asia-Pacific Chlor-Alkali Market Analysis, Insights and Forecast, 2016-2028

Chapter 13: Middle East & Africa Chlor-Alkali Market Analysis, Insights and Forecast, 2016-2028

Chapter 14: South America Chlor-Alkali Market Analysis, Insights and Forecast, 2016-2028

Chapter 15 Investment Analysis

Chapter 16 Analyst Viewpoint and Conclusion

The outbreak of COVID-19 has impacted most industrial operations across the world. Disruptions in logistics & supplies, labor shortage, absence of end-users, and other restraints are major challenges faced by industries globally. During the initial phase of the outbreak, operation rates had fallen sharply, and some plants had to halt production for a few days. Further, the absence of end-users significantly reduces the demand for these products, particularly chlorine.

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The sudden emergence of the humanitarian crisis has inflicted a negative impact on the market’s growth. The low available workforce and the closure of production facilities during the initial days of the pandemic have affected the growth of the market. The disruptions in the supply chain networks have exacerbated the impact. Additionally, the reduced demand for chlorine by end-use industries further aggravated the situation.

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Global Ion-exchange Membrane Electrolyzer Assessment, With Major Companies Analysis, Regional Analysis, Breakdown Data by Application/Type

Global markets continue to sink as the coronavirus spreads, reaching over 200 countries in total by the end of March. Now the outbreak continued to grow, as the number of cases in USA, Italy, Spain, Germany, France all spiked, Europe and USA have now become the epicenter of the outbreak, Cases in China appear have steadied in April, but there?s growing concern about the overall impact to the global market. This study analysis was given on a worldwide scale, for instance, present and traditional Ion-exchange Membrane Electrolyzergrowth analysis, competitive analysis, and also the growth prospects of the central regions. The report gives an exhaustive investigation of this market at country & regional levels, and provides an analysis of the industry trends in each of the sub-segments, from sales, revenue and consumption. A quantitative and qualitative analysis of the main players in related regions is introduced, from the perspective of sales, revenue and price.

According to Researcher, the global Ion-exchange Membrane Electrolyzer market was valued at USD xxx million in 2019, and it is expected to reach a value of USD xxx million by 2026, at a CAGR of xx% over the forecast period 2021-2026. Correspondingly, the forecast analysis of Ion-exchange Membrane Electrolyzer industry comprises of Asia, North America, South America, Middle East and Africa, Europe, with the sales and revenue data in each of the sub-segments.

At the upcoming section, this report discusses industrial policy, economic environment, in addition to the fabrication processes and cost structures of the industry. And this report encompasses the fundamental dynamics of the market which include drivers, opportunities, and challenges faced by the industry. Additionally, this report showed a keen market study of the main consumers, raw material manufacturers and distributors, etc.

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In order to stop the spread of the COVID-19 outbreak, countries and world capital have been put under strict lockdown, bringing a total halt to major industrial production chains. It has caused supply chain disruptions for nearly three-quarters of U.S. companies, and in the second quarter, domestically consumption is likely to be hit even harder. The same situation also appeared in Europe, as the epidemic has required large-scale restrictions on the movement of people, investment, consumption and exports will all be strongly impacted by the epidemic, domestic production and consumption will plummet in the first half of 2020. We expected a U-shaped recovery in the second half of the year in USA and Europe market.

China, Japan, South Korea, India, and other Asia countries took the lead in introducing unprecedented measures to contain the virus, the market confidence in Asia-Pacific region is returning, EU and USA have relaxed its fiscal rules with maximum flexibility, this will stimulate the market demand in the second half of 2020.

Geographically, this report is segmented into several key Regions, with production, consumption, revenue (M USD), market share and growth rate of Ion-exchange Membrane Electrolyzer in these regions, from 2014 to 2026 (forecast), covering

Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

North America (United States, Canada and Mexico)

Europe (Germany, France, UK, Russia and Italy)

South America (Brazil, Argentina, Columbia)

Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Global Ion-exchange Membrane Electrolyzer market competition by top manufacturers, with production, price, revenue (value) and market share for each manufacturer; the top players including

Bluestar

Asahi Kasei

ThyssenKrupp Uhde Chlorine Engineers

INEOS

...

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

ML-32NCH

n-BiTAC-880

NBZ-2.7

On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption (sales), market share and growth rate of Ion-exchange Membrane Electrolyzer for each application, including

Chlor-alkali Plants

Potassium & Desalination

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Table of content

Table of Contents Global Ion-exchange Membrane Electrolyzer Market by Manufacturers, Regions, Type and Application, Forecast to 2026 1 Report Overview 1.1 Definition and Specification 1.2 Report Overview 1.2.1 Manufacturers Overview 1.2.2 Regions Overview 1.2.3 Type Overview 1.2.4 Application Overview 1.3 Industrial Chain 1.3.1 Ion-exchange Membrane Electrolyzer Overall Industrial Chain 1.3.2 Upstream 1.3.3 Downstream 1.4 Industry Situation 1.4.1 Industrial Policy 1.4.2 Product Preference 1.4.3 Economic/Political Environment 1.5 SWOT Analysis 2 Market Assessment by Type 2.1 ML-32NCH Sales (K Units), Revenue (M USD) and Growth Rate 2014-2020 2.2 n-BiTAC-880 Sales (K Units), Revenue (M USD) and Growth Rate 2014-2020 2.3 NBZ-2.7 Sales (K Units), Revenue (M USD) and Growth Rate 2014-2020 3 Asia Pacific Ion-exchange Membrane Electrolyzer Market Assessment by Type 3.1 Asia Pacific Market Performance (Sales, Revenue) 3.2 Key Players in Asia Pacific 4 North America Ion-exchange Membrane Electrolyzer Market Assessment by Type 4.1 North America Market Performance (Sales, Revenue) 4.2 Key Players in North America 5 Europe Ion-exchange Membrane Electrolyzer Market Assessment by Type 4.1 Europe Market Performance (Sales, Revenue) 4.2 Key Players in Europe 6 South America Ion-exchange Membrane Electrolyzer Market Assessment by

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MIGHT (Mobility and Infrastructure with Green Hydrogen Technologies)

Objective:

The MIGHT initiative is intended to explore opportunities for India to exploit the potential of green hydrogen technologies for green energy acceleration and the adoption of clean transport.

 MIGHT will also focus on the applications of hydrogen for industrial and agricultural applications beyond electricity generation. IESA will work to identify and remove any barriers as well as work on building an innovation ecosystem for green hydrogen technologies.

Why Green Hydrogen in India?

To avert some of the worst effects of climate change and the problems of increasing carbon emissions scientists say that we should not capture global temperature increase within limits of 2 degrees annually. 

One tool that is gaining traction to achieve this objective is green hydrogen. The benefit of green hydrogen is that it is a safe burning molecule that lets us decarbonize a variety of industries such as telecommunications, stationary, and transportation to name a few.

 Global momentum for 'green hydrogen' as a clean fuel and an energy storage option can be generated by the growth of renewable energy.

In its national roadmap, Korea made its desire to be a global FCEV passenger vehicle champion very evidently. Japan accepts its limited opportunities for clean energy and has made strategic commitments and investments and G2G contracts with Australia for importing green hydrogen. 

Currently, Europe leads in electrolyzer and FCEV technologies, as well as demonstration stage projects and public funding projects.

India too is working to develop a green hydrogen economy to produce Hydrogen gas and power vehicles on the road and reduce dependency on oil. It further will help in reducing dependency on oil and fossil fuel imports as India accounted for nearly 8.7% of total emissions of global greenhouse gas emissions in India in 2011 and the number is rising rapidly ever since. 

 Further, India’s energy-related carbon emissions are estimated to reach 31.9 Gt in 2020 and to limit to 21.7 Gt in 2035, as targeted in the Copenhagen Accord, measures need to be undertaken and a transition to a clean energy transition to a Hydrogen Economy. 

One of the major initiatives for the clean energy sector that the Government of India announced was the plan to launch a National Hydrogen Mission. There will be five primary areas in which the government will concentrate.

This includes R&D, market development, how it can be used in business, how to build an eco-system, including policies for this, and how to get industry and foreign collaborations on board.

Delhi became the first city in India to operate buses with hydrogen-enriched CNG (HCNG). Several companies are working towards operating more hydrogen-run buses in the country while some are at the piloting stages. IROAF (Indian Railways Organization for Alternate Fuels) has invited bids to develop a hydrogen fuel cell-based hybrid power train in Kalka- Shimla section.

Which Sectors can contribute to the Hydrogen Ecosystem?

Production: Production of green hydrogen using electrolysers (PEM based, AFC based and SOEC) powered by renewable energy

Storage: Next generation technologies for compact, safe, and cost-effective storage of hydrogen

Stationary Power Generation: Distributed power generation using fuel cell technologies (SOFC, PEMFC, AFC, PAFC and MCFC) for industrial and domestic applications.

Mobility: Hydrogen generation and distribution infrastructure for enabling PEMFC based transportation (land based – commercial and heavy-duty vehicles, marine and aviation)

Industrial Hydrogen Uses: Green hydrogen generation for addressing all industrial requirements (fertilizer production, food processing, steel & cement manufacturing, chemicals industry etc.)

IESA Activities on Hydrogen:

IESA has signed MOU with MENA Hydrogen Alliance :

MENA Hydrogen Alliance launched in 2020 to accelerate the development of value chains for green molecules in the region and brings together private and public sector actors and academia.

 Under the umbrella of Desertic 3.0, Dii Desert Energy acts as neutral advisor to elaborate business cases and to educate different stakeholders on all aspects of producing, transporting, and using green hydrogen and other green molecules. This includes exporting green molecules to world markets, including Europe.

IESA has signed MOU with Greenstat Hydrogen India Pvt Ltd:

Greenstat Hydrogen India Pvt Ltd is a Norwegian energy company with a specific focus on green hydrogen, solar, wind, and zero-emissions maritime solutions. Greenstat vision is To Make Green Happen. To achieve this vision Greenstat and its subsidiaries focus upon different business areas that will contribute to fulfil the company’s vision.

 In the year of 2020, IESA had organized two webinars

Hydrogen & Fuel cell technologies & Opportunities for India: In this webinar, experts discussed about hydrogen and Fuel cell-based generation for vehicle and stationary applications. Speakers from Niti Aayog, Hydrogen in Motion, Indian Oil Corporation, TATA Sons, and NTPC participated in the webinar.

Organized a workshop on the Hydrogen Economy and India – Nordic Collaboration (Supported by Innovation Norway and Business Finland) at India Energy Storage Week, on 2 Nov 2020, and a session on Technological Readiness of Hydrogen Storage for Stationary and EV Applications on 6 Nov 2020.

IESA organized its 3rd annual event on hydrogen and fuel cell, “India Hydrogen & Fuel Cell Conclave – #IHFC2021” on 25th May 2021 focused on both mobility and stationary applications.

IESA’S Contribution to Hydrogen Economy

Technological due diligence on Hydrogen

Support in the Market entry

Helping in understanding the technology partnership with Global companies to India

 You can learn more by becoming an IESA member.

Water Electrolyzer | Hydrogen Electrolyzer Manufacturers India

Indigenized Electrolyzers proving to be a showstopper to fulfill India’s Exports aspiration for Green Hydrogen Export of 95GW by 2030…?

Water Electrolyzer

#greenhydrogen #greenenergy #electrolyzer #renewableenergy #makeinindia #manufacturing #netzero #netzerocarbon #futureenergy #hydrogenenergy #hydrogenfuel #stack

To manufacture green hydrogen, Industrial Water electrolyzers are key equipment that is right now unknown for too many concerned audiences in India even in principle water electrolysis seems to be easy. Maximum Indian PSU and private industries took export collaboration path to fulfill their desire but this approach is not very efficient and result oriented. Historically, many defense / technological-related programs got delayed or halted because western companies are skeptical to share technologies, and also during this long TT process they maximized their interest. At BRISE we strongly believe that Indian need to be technologically self-sufficient and must need to take a path similar somewhat ISRO took during its initial time and need to develop a favorable ecosystem for electrolyzers development, supply chain, and manufacturing facilities and need to promote more startups like BRISE CHEMICALS to come forward to solve this issue related water electrolyzers manufacturing. At BRISE, We are committed to 100% Indigenized electrolyzers manufacturing and doing research for a long on the development of Bi-polar alkaline electrolyzers and traveled a successful path towards the development of indigenous water electrolyzers, Hydrogen Purification & Hydrogen Liquefier Technology. BRISE electrolyzers are designed with manufactured feasibility in the existing Indian ecosystem and could able to maximize Indian content above 90% with cost-effective manufacturing with improved performance. Certainly, BRISE water electrolyzers going to offer attractive value to its END users such as Low cost with better operational efficiency, shorter downtime, and higher reliability. We strongly believe that Brise efforts are and will heavily contribute fulfill national objectives.

Construction Lubricants Market Trends, Industry Growth

A study, recently conducted by the strategic consulting and market research firm BlueWeave Consulting revealed that the global construction lubricants market was worth USD 5.5 billion in 2020 and is further projected to reach USD 6.7 billion by 2027, at a CAGR of 3.0% during the forecast period (2021-2027). There is an increasing demand for construction lubricants as more commercial and residential structures are built-in emerging economies. A rise in population is also expected to boost market growth from 2021 to 2027, while higher costs associated with oil production are expected to limit the market growth.

Rising Constructional Industries is Emerging Economies are Favoring the Market Growth

Growing construction industries in emerging economies are key factors driving demand for construction lubricants. During the past few years, APAC has experienced extensive industrial growth, and this is expected to continue in the future. Construction, cement, steel, and energy are among the industries that have attracted foreign investments across the region. In India, for example, the Ministry of Petroleum and Natural Gas, through the government-owned GAIL, has set aside INR. 5,000 crore (USD 671.14 billion) for the establishment of two plants to produce ethanol and compressed biogas (CBG) from municipal waste in July 2021. NTPC also floated an Expression of Interest (EOI) in June 2021 for a standalone fuel cell-based backup power system and a standalone fuel cell-based microgrid system with hydrogen production using electrolyzers at its premises. NTPC is seeking to further strengthen its footprint in green and clean fuels through the projects. Therefore, the investments in various projects by Indian companies are likely to widen the application scope for construction lubricants during the forecast period.

The Rise in Automation in Construction Industry is Driving the Market Growth

The construction industry is highly labor-intensive. It necessitates a large number of skilled people, improved work quality, and enhanced production, among other things. Innovative technologies, such as automation, which can increase the quality, safety, and productivity of the construction sector, can address challenges associated with construction work, such as diminishing work quality, labour shortages, and labor safety and environmental initiatives. Sensors, for example, are commonly used in welding and fabrication processes to achieve automation. These sensors capture vital environmental data that can instruct the welding equipment to take appropriate action. Therefore, the adoption of automation in the construction industry is likely to enhance the construction lubricants market during the forecast period.

Global Construction Lubricants Market: By Base Oil

Based on base oils, the global construction lubricants market is categorized as mineral oil and synthetic oil. Mineral oil accounted for a significant share of the global construction lubricants market in 2020 and is likely to dominate the segment during the forecast period. Light mixes of alkanes and cyclic paraffin make up mineral oil-based lubricants. Light and heavy grades of mineral oil-based construction lubricants are available, depending on the usage and necessity. The construction industry uses them in significant quantities because of their low cost.

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Impact of COVID-19

The novel coronavirus has harmed the construction lubricants industry significantly. As a result of the pandemic, many countries around the world have been placed on lockdown. The global economy also suffered as a result of a demand-supply imbalance. Manufacturing, mining operations, and infrastructure projects were suspended as a result of the pandemic. The construction lubricants sector has also been harmed by fluctuations in the price of raw materials required to manufacture lubricants. However, as the countries return to normalcy, the market is expected to strengthen throughout the projection period. China and the United States, for example, have already restored normal operations.

Asia-Pacific Leads the Global Construction Lubricants Market

The Asia Pacific dominated the global construction lubricants market in 2020 and is likely to grow further at the fastest rate during the forecast period. The region’s growth can be attributed to the growth in the base oil movement, rapid industrialization & urbanization, rising population, and high growth in significant end-use industries, such as textiles, chemicals, food processing, and metalworking. The market also offers numerous profitable opportunities to innovators who may tap into niche applications and add new products with favorable product characteristics. Moreover, major industry players are also shifting their production facilities to Asia due to low-cost labor, ever-increasing demand, and favorable government policies.

Global Construction Lubricants Market: Competitive Landscape

The global construction lubricants market is highly fragmented due to the presence of numerous leading and emerging players involved in the market. Companies that are actively engaged in new product development, expansion, and acquisition can only remain competitive in the market. Furthermore, some of the biggest players are expanding their global footprint by acquiring overseas producers. Some key players in the global construction lubricants market are Royal Dutch Shell PLC, Exxonmobil Corporation, BP PLC, Chevron Corporation, Totalenergies SE, Petrochina Company Limited, China Petrochemical Corporation (Sinopec Corp.), Fuchs Petrolub SE, Lukoil, Phillips 66 Company, Bel Ray Company LLC., and other prominent players.

In June 2021, BP Plc confirmed the safe start-up of the Manuel project in the US Gulf of Mexico. It is among the fourth of five major projects set to be completed by 2021 globally. Manuel features the most recent subsea production system for two new wells connected to the Na Kika platform. Wells on the platform are expected to boost gross platform output by 20,100 barrels of oil equivalent per day (boe/d).

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Hydrogen Electrolyzer Market Revenue to Decline During Coronavirus Disruption, Stakeholders to Realign Their Growth Strategies | Siemens AG, Nel Hydrogen, McPhy Energy S.A, ITM Power Plc

The global Hydrogen Electrolyzer market is segmented in detail to cover every aspect of the market and present a complete market intelligence approach to the reader.

By Product Type

Proton Exchange Membrane (PEM) Electrolyzer

Alkaline Electrolyzer

Solid Oxide Electrolyzer

By Capacity

Low (<500 kW)

Medium (500 kW to 2 MW

High (Above 2 MW)

By Output Pressure

Low (≤10 bar)

Medium

(10 bar – 40 bar)

High (≥ 40 bar)

By Application

Ammonia

Methanol

Refinery Industry

Electronics

Energy

Power to Gas

Transport

Metal Production & Fabrication

Pharma & Biotech

Food & Beverages

Glass Industry

Others

By Region

North America

Latin America

Western Europe

Eastern Europe

Asia Pacific Excluding Japan (APEJ)

Middle East & Africa

Japan

Report Chapters

Chapter 01 – Executive Summary

The report on commences with the executive summary of the Hydrogen Electrolyzer market, which includes a summary of the key findings and key statistics of the market. It also includes the market value (US$ million) estimates of prominent segments of the Hydrogen Electrolyzer market.

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Chapter 02 – Market Overview

Readers can find detailed taxonomy and definition of the Hydrogen Electrolyzer market in this chapter, which will help them understand the basic information about the Hydrogen Electrolyzer market. This section also highlights the inclusions and exclusions, which helps the reader understand the scope of the Hydrogen Electrolyzer market report.

Chapter 03 – Key Market Trends

The report provides key market trends of the Hydrogen Electrolyzer market that are expected to significantly impact the market growth during the forecast period. Detailed industry trends are provided in this section, along with key market developments and product innovations.

Chapter 04 – Key Success Factors

This section includes key inclusions of the Hydrogen Electrolyzer market report. It includes product adoption & usage analysis, reimbursement scenario, pipeline assessment & opportunity analysis, and strategies of manufacturers for the market expansion.

Chapter 05 – Global Hydrogen Electrolyzer Market Demand (in Value or Size in US$ Mn) Analysis 2015-2019 and Forecast 2020-2030

This chapter includes detailed analysis of the historic Hydrogen Electrolyzer market, along with an opportunity analysis of the future. Readers can also find the absolute $ opportunity for the current year (2019-2020) and an incremental $ opportunity for the forecast period of 2020-2030.

Chapter 06 – Global Hydrogen Electrolyzer Market Pricing Analysis

This section highlights the average price of the Polymer Electrolyte Membrane (PEM) Electrolyzer, Alkaline Electrolyzer and Solid Oxide Electrolyzer in different regions of the world. The pricing benchmark for manufacturer level pricing and distributor level pricing is analyzed in this section.

Chapter 07 – Global Hydrogen Electrolyzer Market Demand (Volume in Units) Analysis 2015-2019 and Forecast 2020-2030

This section of the Hydrogen Electrolyzer market explains the global market volume analysis and forecast for the Hydrogen Electrolyzer market between the forecast periods of 2020-2030

Chapter 08 – Market Background

This chapter explains the key macro-economic factors that are expected to influence the growth of the Hydrogen Electrolyzer market over the forecast period. Along with macroeconomic factors, this section highlights the opportunity analysis for the Hydrogen Electrolyzer market. The chapter also provides information about COVID -19 Impact on the market and Assessment of how the spread of pandemic is set to curb the market growth. This chapter also highlights the key market dynamics of the Hydrogen Electrolyzer market, which includes the drivers, restraints, opportunities, and trends. Moreover, readers will understand the key trends followed by the prominent manufacturers in the Hydrogen Electrolyzer market.

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Chapter 09 – Global Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030, by Product Type

Based on the product type, the Hydrogen Electrolyzer market is segmented into Polymer Electrolyte Membrane (PEM) Electrolyzer, Alkaline Electrolyzer and Solid Oxide Electrolyzer. In this chapter, readers can find information about key trends and developments in the Hydrogen Electrolyzer market and market attractiveness analysis based on the product type.

Chapter 10 – Global Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030, by Capacity

This chapter provides details about the Hydrogen Electrolyzer market on the basis of Low (≤ 500 kW), Medium (500 kW – 2 MW) and High (> 2 MW). In this chapter, readers can understand the market attractiveness analysis based on the phase type.

Chapter 11 – Global Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030, by Output Pressure

This chapter provides details about the Hydrogen Electrolyzer market on the basis of Low (≤10 bar), Medium (10 bar – 40 bar) and High (≥ 40 bar). In this chapter, readers can understand the market attractiveness analysis based on the phase type.

Chapter 12 – Global Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030, by End User

This chapter provides details about the Hydrogen Electrolyzer market on the basis of Ammonia, Methanol, Refinery/Hydrocarbon Processing, Electronics, Energy, Power to Gas, Transport, Metal Production & Fabrication, Pharma &Biotech, Food & Beverages, Glass Industry and Others. In this chapter, readers can understand the market attractiveness analysis based on the application.

Chapter 13 – Global Hydrogen Electrolyzer Market Analysis 2014 – 2018 & Forecast 2020 – 2030, by Region

This chapter explains how the Hydrogen Electrolyzer market will grow across several geographic regions such as North America, Latin America, Western Europe, Eastern Europe, Asia Pacific Excluding Japan, Middle East & Africa (MEA), and Japan.

Chapter 14 – North America Hydrogen Electrolyzer Market Analysis 2014 – 2018 & Forecast 2020 – 2030

This chapter includes detailed analysis of the growth of the North America Hydrogen Electrolyzer market, along with the country-wise assessment such as the U.S. and Canada. Readers can also find the regional trends, regulations, and market growth based on end users and countries in North America.

Chapter 15 – Latin America Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

Readers can find detailed information about several factors, such as the pricing analysis and regional trends, which are impacting the growth of the Latin America Hydrogen Electrolyzer market. This chapter also includes the growth prospects of the Hydrogen Electrolyzer market in the prominent LATAM countries such as Brazil, Mexico, and the Rest of Latin America.

Chapter 16 – Western Europe Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

Important growth prospects of the Hydrogen Electrolyzer market based on its end users in several countries, such as Germany, Italy, France, UK, Spain, Benelux and Rest of Western Europe are included in this chapter.

Chapter 17 – Eastern Europe Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

Important growth prospects of the Hydrogen Electrolyzer market based on its end users in several countries, such as Russia, Poland and Rest of Eastern Europe are included in this chapter.

Chapter 18 – Asia Pacific Excluding Japan Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

Important growth prospects of the Hydrogen Electrolyzer market based on its end users in several countries, such as China, India, ASEAN, Australia & New Zealand and Rest of APEJare included in this chapter.

Chapter 19 – Japan Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

This chapter highlights the growth of the Hydrogen Electrolyzer market by focusing on Japan. This section also help readers understand the key factors that are responsible for the growth of the Hydrogen Electrolyzer market in Japan.

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Chapter 20 – MEA Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

This chapter provides information about how the Hydrogen Electrolyzer market will grow in major countries in the MEA region such as GCC, North Africa, South Africa, Turkey and Rest of MEA during the forecast period of 2020 – 2030.

Chapter 21 – Emerging Economies Hydrogen Electrolyzer Market Analysis 2015 – 2019 & Forecast 2020 – 2030

This chapter provides information about how the Hydrogen Electrolyzer market will grow in major countries such as China and Germany during the forecast period of 2020 – 2030

Chapter 22 – Market Structure Analysis

In this chapter, readers can find detailed information about the tier analysis and market concentration of key players in the Hydrogen Electrolyzer market, along with their market presence analysis by region and product portfolio.

Chapter 23 – Competition Analysis

In this chapter, readers can find a comprehensive list of all the prominent stakeholders in the Hydrogen Electrolyzer market, along with detailed information about each company, which includes the company overview, revenue shares, strategic overview, and recent company developments. Some of the market players featured in the report are Siemens AG, Nel Hydrogen, McPhy Energy S.A, ITM Power Plc, Hydrogenics, Tianjin Mainland Hydrogen Equipment Co. Ltd, Areva H2Gen, Giner Inc., ELB Elektrolysetechnik GmbH, GreenHydrogen.dk ApS, iGas Energy GmbH, Beijing CEI Technology Co., Ltd. And Next Hydrogen, and Accagen SA etc.

Chapter 24 – Assumptions and Acronyms

This chapter includes a list of acronyms and assumptions that provide a base to the information and statistics included in the Hydrogen Electrolyzer market report.

Chapter 25 – Research Methodology

This chapter help readers understand the research methodology followed to obtain various conclusions as well as important qualitative and quantitative information about the Hydrogen Electrolyzer market.

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Five Simple Tactics That’ll Boost Green Hydrogen Market by 2028

Green Hydrogen Market Overview

The global green hydrogen market size was valued at $0.3 billion in 2020, and is projected to reach $9.8 billion by 2028, growing at a CAGR of 54.7% from 2021 to 2028.

Some of the key players operating in the global green hydrogen market are Ballard Power Systems, Enapter, Engie, Green Hydrogen Systems, Hydrogenics, Nikola Motors, Plug Power, SGH2 Energy Global LLC, Shell, and Siemens Gas and Power GmbH & Co. KG.

Rise in concern toward reducing carbon emissions and expansion of green hydrogen production technologies have boosted the growth of the green hydrogen market.

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Countries such as the U.S., China, and India are emerging as investment centric hubs due to wide scope of green hydrogen in the manufacturing sector.

Green hydrogen is generated by the electrolysis of water using renewable energy sources such as wind or solar energy.

Presence of favorable government policies encouraging hydrogen economies, as well as environmental concerns about rising carbon emissions from fossil fuel use, are expected to fuel demand for hydrogen.

On the basis of end-use industry, the market is divided into food & beverages, medical, chemical, petrochemicals, glass, and others. The petrochemicals segment is projected to portray the highest CAGR of 55.0% during the forecast period.

Based on technology, the market is classified into proton exchange membrane electrolyzer, alkaline electrolyzer, and solid oxide electrolyzer. The alkaline electrolyzer segment held the lion’s share in 2019, accounting for more than half of the market. In addition, the segment is expected to register the highest CAGR of 54.8% during the forecast period.

By application, the power generation segment held the highest share in 2020, accounting for nearly two-thirds of the global green hydrogen market, and is expected to maintain its lead position during the forecast period. Moreover, the segment is also expected to witness the largest CAGR of 54.9% from 2021 to 2028.

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Electrolyzers are getting highly demanded for power generation as a clean energy source, which in turn, propels the growth of the segment.

By region, the green hydrogen market is dominated by Europe. The area has extensive oil & gas infrastructure, which has enormous potential to be transformed into hydrogen production, storage, and transportation infrastructure while also creating jobs.

The green hydrogen market was slightly affected by the Covid-19 pandemic. The lockdown across several countries posed several challenges for industry participants such as logistical difficulties in end goods, disruption of supply chains, and recruitment of workforce during the pandemic.

However, the market recovered in the third and fourth quarter, majorly in North America and Europe regions. And with relaxed restrictions the market is expected to recoup rapidly in other regions.

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Green Hydrogen Market Analysis, Size, Share, Growth, Trends And Forecast 2020 - 2027

The Global Green Hydrogen Market report added by Reports and Data analyzes the industry from a panoramic perspective to offer in-depth insights about the Green Hydrogen industry to help the readers understand crucial aspects of the market. The report offers basic details about the market description, market overview, product portfolio, market scope, specifications, applications and types. It covers details about market size, market share, revenue contribution, revenue share, industry growth rate, key statistical data, market trends, and overall industry overview. It provides a complete overview of current and emerging trends, developments, patterns, regulatory frameworks and government policies, latest technological advancements, product launches and brand promotions, R&D activities.

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The Global Green Hydrogen  Market research report offers valuable insights into the market size, market share, production analysis, cost volatility and analysis, market size in terms of volume and value, and other key features for the forecast period of 2021-2028. The global Green Hydrogen market report has been formulated through extensive primary and secondary research with data accrued from valid sources like interviews, journals, government repository, and industry experts and professionals.

Major companies profiled in the report include:  

Air Liquide, Engie, Linde, Uniper SE, Hydrogenics, Siemens, Toshiba Energy Systems & Solutions Corporation, Air Products and Chemicals, Inc., FuelCellsWorks, and Green Hydrogen Systems.

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The report covers an extensive analysis of the competitive landscape of the global Green Hydrogen market with insights into company profiles, product portfolio, manufacturing capacity, and business expansion plans. It also studies mergers and acquisitions, joint ventures, collaborations, partnerships, agreements, and brand promotions and product launches. The report also offers SWOT analysis and Porter’s Five Forces analysis for each player to offer detailed insights into the competition scenario.

Furthermore, the report segments the global Green Hydrogen market on the basis of product, application, and key regions. It also offers insights into the segment expected to register significant revenue growth over the forecast period.

Type Outlook:

Proton     Exchange Membrane (PEM) Electrolyzer

Alkaline     (ALK) Electrolyzer

Solid Oxide     Electrolyzer

Application Outlook:

Heating

Power Generation

Transportation

Regional Analysis:

·        North America (U.S.A., Canada, Mexico)

·        Europe (U.K., Italy, Germany, France, Rest of Europe)

·        Asia-Pacific (India, Japan, China, South Korea, Australia, Rest of APAC)

·        Latin America (Chile, Brazil, Argentina, Rest of Latin America)

·        Middle East & Africa (Saudi Arabia, U.A.E., South Africa, Rest of MEA)

The Global Green Hydrogen Market report covers the assessment of the key players and their market scope through advanced analytical tools such as SWOT analysis, Porter’s Five Forces analysis, feasibility study, and investment return analysis. The statistical analysis provides accurate assessment of the growth of the major manufacturers/companies operating in the industry. The report covers analysis of the factors that directly influence the growth of the market such as marketing strategies, development platforms, product portfolio, and others.

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Electrolyzer Market - Global Outlook and Forecast 2021-2027

This report contains market size and forecasts of Electrolyzer in global, including the following market information:

Global Electrolyzer Market Revenue, 2016-2021, 2022-2027, ($ millions)

Global Electrolyzer Market Sales, 2016-2021, 2022-2027, (Unit)

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Global top five Electrolyzer companies in 2020 (%)

The global Electrolyzer market was valued at 198.6 million in 2020 and is projected to reach US$ 247.4 million by 2027, at a CAGR of 5.6% during the forecast period.

We surveyed the Electrolyzer manufacturers, suppliers, distributors and industry experts on this industry, involving the sales, revenue, demand, price change, product type, recent development and plan, industry trends, drivers, challenges, obstacles, and potential risks.

Total Market by Segment:

Global Electrolyzer Market, By Type, 2016-2021, 2022-2027 ($ Millions) & (Unit)

Global Electrolyzer Market Segment Percentages, By Type, 2020 (%)

Traditional Alkaline Electroliser

PEM Electroliser

Global Electrolyzer Market, By Application, 2016-2021, 2022-2027 ($ Millions) & (Unit)

Global Electrolyzer Market Segment Percentages, By Application, 2020 (%)

Power Plants

Steel Plant

Electronics and Photovoltaics

Industrial Gases

Energy Storage or Fueling for FCEV's

Power to Gas

Others

Global Electrolyzer Market, By Region and Country, 2016-2021, 2022-2027 ($ Millions) & (Unit)

Global Electrolyzer Market Segment Percentages, By Region and Country, 2020 (%)

North America

US

Canada

Mexico

Europe

Germany

France

U.K.

Italy

Russia

Nordic Countries

Benelux

Rest of Europe

Asia

China

Japan

South Korea

Southeast Asia

India

Rest of Asia

South America

Brazil

Argentina

Rest of South America

Middle East & Africa

Turkey

Israel

Saudi Arabia

UAE

Rest of Middle East & Africa

Competitor Analysis

The report also provides analysis of leading market participants including:

Key companies Electrolyzer revenues in global market, 2016-2021 (Estimated), ($ millions)

Key companies Electrolyzer revenues share in global market, 2020 (%)

Key companies Electrolyzer sales in global market, 2016-2021 (Estimated), (Unit)

Key companies Electrolyzer sales share in global market, 2020 (%)

Further, the report presents profiles of competitors in the market, key players include:

Proton On-Site

718th Research Institute of CSIC

Teledyne Energy Systems

Hydrogenics

Nel Hydrogen

Suzhou Jingli

Beijing Zhongdian

McPhy

Siemens

TianJin Mainland

Areva H2gen

Shandong Saksay Hydrogen Energy

Yangzhou Chungdean Hydrogen Equipment

Asahi Kasei

Idroenergy Spa

Erredue SpA

ShaanXi HuaQin

Kobelco Eco-Solutions

ELB Elektrolysetechnik GmbH

ITM Power

Toshiba

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Table of content

1 Introduction to Research & Analysis Reports 1.1 Electrolyzer Market Definition 1.2 Market Segments 1.2.1 Market by Type 1.2.2 Market by Application 1.3 Global Electrolyzer Market Overview 1.4 Features & Benefits of This Report 1.5 Methodology & Sources of Information 1.5.1 Research Methodology 1.5.2 Research Process 1.5.3 Base Year 1.5.4 Report Assumptions & Caveats 2 Global Electrolyzer Overall Market Size 2.1 Global Electrolyzer Market Size: 2021 VS 2027 2.2 Global Electrolyzer Revenue, Prospects & Forecasts: 2016-2027 2.3 Global Electrolyzer Sales (Consumption): 2016-2027 3 Company Landscape 3.1 Top Electrolyzer Players in Global Market 3.2 Top Global Electrolyzer Companies Ranked by Revenue 3.3 Global Electrolyzer Revenue by Companies 3.4 Global Electrolyzer Sales by Companies 3.5 Global Electrolyzer Price by Manufacturer (2016-2021) 3.6 Top 3 and Top 5 Electrolyzer Companies in Global Market, by Revenue in 2020 3.7 Global Manufacturers Electrolyzer Product Type 3.8 Tier 1, Tier 2 and Tier 3 Electrolyzer Players in Global Market 3.8.1 List of Global Tier 1 Electrolyzer Companies 3.8.2 List of Global Tier 2 and Tier 3 Electrolyzer Companies 4 Sights by Product 4.1 Overview 4.1.1 By Type - Global Electrolyzer Market Size Markets, 2021 & 2027 4.1.2 Traditional Alkaline Electroliser 4.1.3 P

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