Global Pipeline Transportation for Hydrogen and Ammonia Market Research Report 2023-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2029

Global Pipeline Transportation for Hydrogen and Ammonia Market Research Report 2023-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2029


Pipeline Transportation for Hydrogen and Ammonia refers to the long-distance transportation of hydrogen ammonia liquid or gas through a pipeline system (pipeline) to a market area for consumption.

Market Overview:

The latest research study on the global Pipeline Transportation for Hydrogen and Ammonia market finds that the global Pipeline Transportation for Hydrogen and Ammonia market reached a value of USD 338.59 million in 2022. It’s expected that the market will achieve USD 1160.83 million by 2028, exhibiting a CAGR of 22.8% during the forecast period.

Influence of COVID-19 Outbreak on Pipeline Transportation for Hydrogen and Ammonia Industry Development

The outbreak of the epidemic has had a major impact on the production and life of society, and the epidemic has particularly affected pipeline construction projects. In order to control the spread of the epidemic, countries around the world have requested that construction projects be suspended. As a result, it will inevitably lead to the delay of the contractor's construction period, the loss of work stoppage, and the increase of labor costs.
The outbreak of the epidemic has affected the global economy. The initial investment cost of hydrogen and ammonia pipeline transportation is relatively high, and its advantages can only be reflected when the demand is large. In times of turbulent economic environment, companies are more cautious in their investments and may prefer other transportation solutions, thereby affecting the demand in the pipeline transportation market.

Limitations

The transportation of hydrogen occupies a large proportion in the economy and energy consumption performance of the entire hydrogen energy supply chain. At present, the main ways of transporting hydrogen are through container transportation, long-tube trailers and pipeline transportation. Among them, containerized transportation is adopted, with slightly more long-tube trailers and fewer pipelines; the main problem facing the construction of hydrogen pipelines is on the one hand, whether to plan and build long-distance hydrogen pipelines requires huge hydrogen demand; on the other hand, in terms of hydrogen demand, only when the price of hydrogen and the When the storage and transportation costs are low, the demand will increase significantly. The two are difficult to coordinate. Containerized transportation and long-tube trailers are currently the main methods of hydrogen transportation, which have hindered the pipeline transportation market to a certain extent.
High application cost is the main factor restricting the current development and large-scale application of hydrogen energy. How to reduce storage and transportation costs has become the key to large-scale application of hydrogen, and pipeline hydrogen transportation is the most concerned solution. The current difficulties faced by pipeline hydrogen transportation mainly include construction cost. According to data, the cost of natural gas pipelines in the United States is US$125,000-500,000/km, but the cost of hydrogen pipelines is about US$300,000-1 million/km, which is several times the cost of natural gas pipelines. The second is the problem of pipeline hydrogen damage. Hydrogen embrittlement failure of pipeline materials, hydrogen leakage, and hydrogen-induced cracking bulge are the main problems that need to be paid attention to in the transformation of pure hydrogen pipelines and natural gas pipelines. The hydrogen embrittlement susceptibility of different strength steels is different. It is necessary to determine the corresponding hydrogen doping ratio according to the pipeline material and pressure level. At the same time, the equipment and facilities should be transformed to improve the air tightness and hydrogen embrittlement resistance. High construction cost and pipeline hydrogen damage issues are the major factors hindering the development of the hydrogen pipeline transportation market.

Region Overview:

From 2023-2028, North America is estimated to witness robust growth prospects.

Company Overview:

Siemens is one of the major players operating in the Pipeline Transportation for Hydrogen and Ammonia market, holding a share of 21.92% in 2022.

Siemens is a technology company focused on industry, infrastructure, transport, and healthcare. the company had around 303,000 employees worldwide.

Emerson (NYSE: EMR), headquartered in St. Louis, Missouri (USA), is a global technology and engineering company providing innovative solutions for customers in industrial, commercial and residential markets. Emerson has approximately 86,700 employees.

Segmentation Overview:

Among different product types, Transmission Pipeline segment is anticipated to contribute the largest market share in 2028.

Application Overview:

By application, the Ammonia segment occupied the biggest share from 2018 to 2022.

Key Companies in the global Pipeline Transportation for Hydrogen and Ammonia market covered in Chapter 3:

Rockwell Automation
Alstom SA
Trimble Navigation Limited
Schneider Electric
ESRI
Emerson Electric Co.
ABB Ltd.
Siemens
FMC Technologies

In Chapter 4 and Chapter 14.2, on the basis of types, the Pipeline Transportation for Hydrogen and Ammonia market from 2018 to 2029 is primarily split into:

Transmission Pipeline
Distribution Pipeline
Gathering Pipeline

In Chapter 5 and Chapter 14.3, on the basis of Downstream Industry, the Pipeline Transportation for Hydrogen and Ammonia market from 2018 to 2029 covers:

Hydrogen
Ammonia

Geographically, the detailed analysis of consumption, revenue, market share and growth rate, historic and forecast (2018-2029) of the following regions are covered in Chapter 8 to Chapter 14:

North America (United States, Canada)
Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands, Turkey, Switzerland, Sweden)
Asia Pacific (China, Japan, South Korea, Australia, India, Indonesia, Philippines, Malaysia)
Latin America (Brazil, Mexico, Argentina)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa)


Chapter 1 Market Definition and Statistical Scope
Chapter 2 Research Findings and Conclusion
Chapter 3 Key Companies’ Profile
Chapter 4 Global Pipeline Transportation for Hydrogen and Ammonia Market Segmented by Type
Chapter 5 Global Pipeline Transportation for Hydrogen and Ammonia Market Segmented by Downstream Industry
Chapter 6 Pipeline Transportation for Hydrogen and Ammonia Industry Chain Analysis
Chapter 7 The Development and Dynamics of Pipeline Transportation for Hydrogen and Ammonia Market
Chapter 8 Global Pipeline Transportation for Hydrogen and Ammonia Market Segmented by Geography
Chapter 9 North America
Chapter 10 Europe
Chapter 11 Asia Pacific
Chapter 12 Latin America
Chapter 13 Middle East & Africa
Chapter 14 Global Pipeline Transportation for Hydrogen and Ammonia Market Forecast by Geography, Type, and Downstream Industry 2023-2029
Chapter 15 Appendix

Download our eBook: How to Succeed Using Market Research

Learn how to effectively navigate the market research process to help guide your organization on the journey to success.

Download eBook
Cookie Settings