Analyst Viewpoint
Growing emphasis on sustainable energy solutions and rise in demand for off-grid and portable power sources in North America, particularly in outdoor activities, disaster management, and remote locations, is driving the mobile solar systems market value. These systems, equipped with solar panels and energy storage, offer a versatile, eco-friendly alternative to conventional power sources. Furthermore, advancements in battery storage technology in order to enhance efficiency and reliability and increase in government initiatives that promoting clean energy are expected to propel the mobile solar systems industry growth in the next few years.
Rising demand for sustainable and reliable power solutions beyond traditional grids among consumers is expected to create lucrative mobile solar systems market opportunities for manufacturers in the region. Mobile solar systems are expected to play a vital role in shaping the future of portable and eco-friendly energy solutions, contributing to a more sustainable energy landscape in North America.
A mobile solar system refers to a portable and self-contained solar power solution designed for on-the-go applications. These systems typically consist of solar panels, a charge controller, and often an integrated battery storage component. The primary purpose is to harness solar energy and convert it into electricity for various mobile or temporary needs, such as camping, outdoor events, disaster response, and remote construction sites.
The mobility aspect enables users to deploy the solar system in different locations, providing a reliable and sustainable source of power independent of the electrical grid. These systems contribute to North America’s shift toward clean and renewable energy practices, while offering a flexible and eco-friendly power solution for diverse scenarios.
Increase in urbanization and the rise in population are driving the growth in construction and infrastructure projects. The flexibility of job-site trailers supports remote work and provides a temporary office setup close to the construction site. Construction projects in remote or rural areas lack access to permanent infrastructure.
Job-site trailers are commonly used as temporary office spaces, meeting rooms, and storage facilities in the construction industry. They provide essential amenities and workspace for construction teams working in such environments. However, these trailers need a power connection, which is usually provided by fossil-fuel-based generators, in such remote areas. Lately, greener more sustainable alternatives for generators, such as mobile solar systems, are being adopted across North America.
Construction and maintenance activities require various power tools such as drills, saws, and welding equipment. Mobile solar systems offer a convenient and eco-friendly way to charge these tools, thus reducing the need for noisy and polluting gas generators. Construction companies can save on fuel costs by using solar power to charge tools and provide electricity to job-site trailers. Over time, this can lead to significant cost savings and improved profitability.
Beyond construction, numerous applications, such as temporary events, outdoor exhibitions, trade shows, and festivals, disaster response, also rely heavily on solar trailers for various purposes. Mobile solar systems can meet the power requirements for these applications by offering a clean and quiet energy source.
Cellular towers and base stations play a crucial role in providing wireless communication services. Many of these towers are located in remote or off-grid areas where traditional power sources are unavailable or expensive to install. Mobile solar systems offer a cost-effective and sustainable way to power these critical infrastructure components.
Demand for mobile data and wireless connectivity is rising constantly. Therefore, telecommunication companies are expanding their networks into new and often remote locations. Mobile solar systems provide a practical solution for powering these expansion efforts in areas with limited or unreliable access to grid electricity.
Telecommunication companies often set up temporary communication centers for events, festivals, disaster response, or remote project sites. Mobile solar systems offer a flexible and efficient way to power these temporary installations. Some communication equipment, such as remote monitoring devices or IoT (Internet of Things) sensors, require power sources in locations where grid electricity is not available. Mobile solar systems can provide a reliable energy supply for these off-grid applications.
During natural disasters or emergencies, telecommunication infrastructure becomes even more critical for coordinating response efforts. Mobile solar systems can ensure that communication networks remain operational, even when the main power grid is compromised. Mobile solar systems can help telecommunication companies reduce their operational costs by decreasing the reliance on diesel generators or expensive grid connections, especially in remote areas. Some regions have enacted regulations or emissions standards that impact the use of traditional generators. Therefore, expansion of the telecommunications industry and the need for reliable and sustainable power sources in various locations are likely to positively influence the mobile solar systems market forecast in the next few years.
The initial cost of purchasing and installing mobile solar systems, including solar panels, batteries, inverters, wiring, and installation expenses, can be substantial. This can deter individuals and businesses, especially those with limited budgets or other financial priorities. Mobile solar systems offer long-term savings on energy costs; however, the ROI timeline might not align with the preferences of all consumers. Some potential users might prioritize more immediate returns or have a shorter time horizon for their investments.
Businesses in commercial and industrial sectors might be more sensitive to upfront costs due to larger energy demands. High upfront costs could deter adoption, particularly among small and medium-sized enterprises. Some consumers might perceive the initial investment in solar systems as risky, particularly if they are unfamiliar with solar technology and its long-term benefits.
Lack of awareness and understanding about the long-term savings potential of mobile solar systems can lead to the misconception that these systems are unaffordable, further contributing to resistance to adopting them. Several mobile solar systems are designed to be user-friendly; however, some individuals may find the installation process intimidating or technically challenging. This complexity can discourage adoption, particularly among those who are not familiar with solar technology.
Moreover, the dependence of solar power generation on sunlight availability leads to concerns about the reliability of the power supply, especially during inclement weather, as cloudy weather or shade can reduce the efficiency of solar panels. In some cases, individuals might opt for traditional power sources such as generators or grid hookups due to familiarity or perceived convenience, despite the environmental or noise drawbacks.
The mobile solar systems market statistics in North America are estimated to grow at a significant pace in the next few years due to growing awareness and preference for flexible, eco-friendly alternatives. This exponential expansion underscores a paradigm shift toward sustainable energy solutions in various industries, positioning North America at the forefront of a transformative trend in the energy landscape in the region.
The North America mobile solar systems market is highly fragmented, with a large number of small and large-scale vendors controlling majority market share. Leading mobile solar system manufacturers are investing significantly in comprehensive research and development activities, primarily to create environment-friendly products.
Several companies are following the latest mobile solar systems market trends and collaborating strategically to accelerate product innovation and expand their business lines in regional and international markets. Furthermore, leading players are focusing on expansion of their production units in untapped markets, particularly in developing countries. Goal Zero, Renogy, EcoFlow, Jackery, Anker, Suaoki, MAXOAK, Kalisaya, Yara International, and Siemens Energy are the key entities operating in the North America market.
Key players in the North America mobile solar systems market research report has been profiled based on various parameters such as company overview, financial overview, business strategies, product portfolio, business segments, and recent developments.
| Attribute | Detail |
|---|---|
| Market Size Value in 2022 | US$ 245.5 Mn |
| Market Forecast Value in 2031 | US$ 1.4 Bn |
| Growth Rate (CAGR) | 20.3% |
| Forecast Period | 2023-2031 |
| Historical Data Available for | 2021 |
| Quantitative Units | US$ Mn/Bn for Value and Units for Volume |
| Market Analysis | It includes cross-segment analysis at the North America as well as regional level. Furthermore, the qualitative analysis includes drivers, restraints, Mobile Solar System market opportunities, key trends, Porter’s Five Forces analysis, value chain analysis, and key trend analysis. |
| Competition Landscape |
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| Format | Electronic (PDF) + Excel |
| Market Segmentation |
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| Regions Covered |
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| Countries Covered |
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| Companies Profiled |
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| Customization Scope | Available upon request |
| Pricing | Available upon request |
The North America market was valued at US$ 245.5 Mn in 2022
It is expected to grow at a CAGR of 20.3% from 2022 to 2031
Increase in adoption of job-site trailers and tools and rapid growth of telecommunications sector
In terms of power rating, the 4 - 20 KW segment held largest share in 2022
The U.S. was the most lucrative country and held 87.1% share of the business in 2022
Goal Zero, Renogy, EcoFlow, Jackery, Anker, Suaoki, MAXOAK, Kalisaya, Inergy and BioLite
1. Executive Summary
1.1. Global Market Outlook
1.2. Demand Side Trends
1.3. Key Facts and Figures
1.4. Trends Impacting Market
1.5. TMR’s Growth Opportunity Wheel
2. Market Overview
2.1. Market Segmentation
2.2. Key Developments
2.3. Market Definitions
2.4. Key Market Trends
2.5. Market Dynamics
2.5.1. Drivers
2.5.2. Restraints
2.5.3. Opportunities
2.6. North America Mobile Solar Systems Market Analysis and Forecast, 2023-2031
2.6.1. North America Mobile Solar Systems Market Volume (Units)
2.6.2. North America Mobile Solar Systems Market Value (US$ Mn)
2.7. Porter’s Five Forces Analysis
2.8. Regulatory Landscape
2.9. Value Chain Analysis
2.9.1. List of Raw Material Providers
2.9.2. List of Manufacturers
2.9.3. List of Dealers/Distributors
2.9.4. List of Potential Customers
2.10. Production Overview
2.11. Product Specification Analysis
2.11.1. Cost Structure Analysis
3. Economic Recovery Post COVID-19 Impact
3.1. Impact on the Supply Chain of the North America Mobile Solar Systems
3.2. Impact on the Demand of North America Mobile Solar Systems– Pre & Post Crisis
4. Impact of Current Geopolitical Scenario
5. Production Output Analysis (Units), by Region, 2022
5.1. North America
6. Price Trend Analysis and Forecast (US$/Unit), 2023-2031
6.1. Price Comparison Analysis by Power Rating
6.2. Price Comparison Analysis by Country
7. North America Mobile Solar Systems Market Analysis and Forecast, by Power Rating, 2023–2031
7.1. Introduction and Definitions
7.2. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
7.2.1. 4 - 20 KW
7.2.2. 20 - 30 KW
7.2.3. 30 - 40 KW
7.2.4. More than 40 KW
7.3. North America Mobile Solar Systems Market Attractiveness, by Power Rating
8. North America Mobile Solar Systems Market Analysis and Forecast, by Type, 2023–2031
8.1. Introduction and Definitions
8.2. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
8.2.1. Portable Solar Generators
8.2.2. Solar Trailer
8.2.3. Containerized Solar
8.2.4. Others
8.3. North America Mobile Solar Systems Market Attractiveness, by Type
9. North America Mobile Solar Systems Market Analysis and Forecast, by End-use, 2023–2031
9.1. Introduction and Definitions
9.2. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
9.2.1. Disaster Relief
9.2.2. Movie Industry
9.2.3. Agriculture
9.2.4. Military
9.2.5. Telecommunications
9.2.6. Refugee Camps
9.2.7. Construction
9.2.8. Desert Camps
9.2.9. Rural Dwellings
9.2.10. Others
9.3. North America Mobile Solar Systems Market Attractiveness, by End-use
10. North America Mobile Solar Systems Market Analysis and Forecast, by Region, 2023–2031
10.1. Key Findings
10.2. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Region, 2023–2031
10.2.1. North America
10.3. North America Mobile Solar Systems Market Attractiveness, by Country
11. North America North America Mobile Solar Systems Market Analysis and Forecast, 2023–2031
11.1. Key Findings
11.2. North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
11.3. North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
11.4. North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
11.5. North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Country, 2023–2031
11.5.1. U.S. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
11.5.2. U.S. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
11.5.3. U.S. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
11.5.4. Canada North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
11.5.5. Canada North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
11.5.6. Canada North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
11.6. North America North America Mobile Solar Systems Market Attractiveness Analysis
11.7. North America Mobile Solar Systems Company Market Share Analysis, 2022
11.8. Company Profiles (Details – Overview, Financials, Recent Developments, and Strategy)
11.8.1. Goal Zero
11.8.1.1. Company Revenue
11.8.1.2. Business Overview
11.8.1.3. Product Segments
11.8.1.4. Geographic Footprint
11.8.1.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.1.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.2. Renogy
11.8.2.1. Company Revenue
11.8.2.2. Business Overview
11.8.2.3. Product Segments
11.8.2.4. Geographic Footprint
11.8.2.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.2.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.3. EcoFlow
11.8.3.1. Company Revenue
11.8.3.2. Business Overview
11.8.3.3. Product Segments
11.8.3.4. Geographic Footprint
11.8.3.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.3.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.4. Jackery
11.8.4.1. Company Revenue
11.8.4.2. Business Overview
11.8.4.3. Product Segments
11.8.4.4. Geographic Footprint
11.8.4.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.4.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.5. Anker
11.8.5.1. Company Revenue
11.8.5.2. Business Overview
11.8.5.3. Product Segments
11.8.5.4. Geographic Footprint
11.8.5.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.5.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.6. Suaoki
11.8.6.1. Company Revenue
11.8.6.2. Business Overview
11.8.6.3. Product Segments
11.8.6.4. Geographic Footprint
11.8.6.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.6.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.7. MAXOAK
11.8.7.1. Company Revenue
11.8.7.2. Business Overview
11.8.7.3. Product Segments
11.8.7.4. Geographic Footprint
11.8.7.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.7.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.8. Kalisaya
11.8.8.1. Company Revenue
11.8.8.2. Business Overview
11.8.8.3. Product Segments
11.8.8.4. Geographic Footprint
11.8.8.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.8.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.9. Inergy
11.8.9.1. Company Revenue
11.8.9.2. Business Overview
11.8.9.3. Product Segments
11.8.9.4. Geographic Footprint
11.8.9.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.9.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.10. BioLite
11.8.10.1. Company Revenue
11.8.10.2. Business Overview
11.8.10.3. Product Segments
11.8.10.4. Geographic Footprint
11.8.10.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.10.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
11.8.11. Others
11.8.11.1. Company Revenue
11.8.11.2. Business Overview
11.8.11.3. Product Segments
11.8.11.4. Geographic Footprint
11.8.11.5. Production Form/Plant Details, etc. (*As Applicable)
11.8.11.6. Strategic Partnership, Form Expansion, New Product Innovation etc.
12. Primary Research: Key Insights
13. Appendix
List of Tables
Table 1: North America Mobile Solar Systems Market Forecast, by Power Rating, 2023–2031
Table 2: North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
Table 3: North America Mobile Solar Systems Market Forecast, by Type, 2023–2031
Table 4: North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
Table 5: North America Mobile Solar Systems Market Forecast, by End-use, 2023–2031
Table 6: North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
Table 7: North America Mobile Solar Systems Market Forecast, by Region, 2023–2031
Table 8: North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Region, 2023–2031
Table 9: North America North America Mobile Solar Systems Market Forecast, by Power Rating, 2023–2031
Table 10: North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
Table 11: North America North America Mobile Solar Systems Market Forecast, by Type, 2023–2031
Table 12: North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
Table 13: North America North America Mobile Solar Systems Market Forecast, by End-use, 2023–2031
Table 14: North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
Table 15: North America North America Mobile Solar Systems Market Forecast, by Country, 2023–2031
Table 16: North America North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Country, 2023–2031
Table 17: U.S. North America Mobile Solar Systems Market Forecast, by Power Rating, 2023–2031
Table 18: U.S. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
Table 19: U.S. North America Mobile Solar Systems Market Forecast, by Type, 2023–2031
Table 20: U.S. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
Table 21: U.S. North America Mobile Solar Systems Market Forecast, by End-use, 2023–2031
Table 22: U.S. North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
Table 23: Canada North America Mobile Solar Systems Market Forecast, by Power Rating, 2023–2031
Table 24: Canada North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Power Rating, 2023–2031
Table 25: Canada North America Mobile Solar Systems Market Forecast, by Type, 2023–2031
Table 26: Canada North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by Type, 2023–2031
Table 27: Canada North America Mobile Solar Systems Market Forecast, by End-use, 2023–2031
Table 28: Canada North America Mobile Solar Systems Market Volume (Units) and Value (US$ Mn) Forecast, by End-use, 2023–2031
List of Figures
Figure 1: North America Mobile Solar Systems Market Volume Share Analysis, by Power Rating, 2022, 2025, and 2031
Figure 2: North America Mobile Solar Systems Market Attractiveness, by Power Rating
Figure 3: North America Mobile Solar Systems Market Volume Share Analysis, by Type, 2022, 2025, and 2031
Figure 4: North America Mobile Solar Systems Market Attractiveness, by Type
Figure 5: North America Mobile Solar Systems Market Volume Share Analysis, by End-use, 2022, 2025, and 2031
Figure 6: North America Mobile Solar Systems Market Attractiveness, by End-use
Figure 7: North America Mobile Solar Systems Market Volume Share Analysis, by Region, 2022, 2025, and 2031
Figure 8: North America Mobile Solar Systems Market Attractiveness, by Region
Figure 9: North America North America Mobile Solar Systems Market Volume Share Analysis, by Power Rating, 2022, 2025, and 2031
Figure 10: North America North America Mobile Solar Systems Market Attractiveness, by Power Rating
Figure 11: North America North America Mobile Solar Systems Market Attractiveness, by Power Rating
Figure 12: North America North America Mobile Solar Systems Market Volume Share Analysis, by Type, 2022, 2025, and 2031
Figure 13: North America North America Mobile Solar Systems Market Attractiveness, by Type
Figure 14: North America North America Mobile Solar Systems Market Volume Share Analysis, by End-use, 2022, 2025, and 2031
Figure 15: North America North America Mobile Solar Systems Market Attractiveness, by End-use
Figure 16: North America North America Mobile Solar Systems Market Attractiveness, by Country
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North America Mobile Solar Systems Market
*86 figures and 60 tables includes