NEW
YORK, Oct. 30, 2024 /PRNewswire/ -- Report with
market evolution powered by AI - The global agrivoltaics
market size is estimated to grow by USD
1.99 billion from 2024-2028, according to Technavio. The
market is estimated to grow at a CAGR of 10.7% during the forecast
period. Benefits of agrivoltaics is driving market
growth, with a trend towards rising opportunities for
agrivoltaics energy projects. However, limited commercial
reach of agrivoltaics poses a challenge. Key market players include
BayWa r.e. AG, Enel SPA, Insolight, Jacks Solar Garden, JinkoSolar
Holding Co. Ltd., Mackin Energy Japan Co. Ltd., Mirai Solar, Next2Sun, Ombrea SAS, REM TEC srl,
sandbox solar llc, SunAgri, Svea
Solar, Tse Energy Ltd, and ZIMMERMANN PV-Agri.
Key insights into market evolution with
AI-powered analysis. Explore trends, segmentation, and growth
drivers- View the snapshot of this report
Agrivoltaics Market
Scope
|
Report
Coverage
|
Details
|
Base year
|
2023
|
Historic
period
|
2018 - 2022
|
Forecast
period
|
2024-2028
|
Growth momentum &
CAGR
|
Accelerate at a CAGR of
10.7%
|
Market growth
2024-2028
|
USD 1994.5
million
|
Market
structure
|
Concentrated
|
YoY growth 2022-2023
(%)
|
8.3
|
Regional
analysis
|
North America, Europe,
APAC, Middle East and Africa, and South America
|
Performing market
contribution
|
North America at
36%
|
Key
countries
|
US, Germany, China,
France, and Japan
|
Key companies
profiled
|
BayWa r.e. AG, Enel
SPA, Insolight, Jacks Solar Garden, JinkoSolar Holding Co. Ltd.,
Mackin Energy Japan Co. Ltd., Mirai Solar, Next2Sun, Ombrea SAS,
REM TEC srl, sandbox solar llc, SunAgri, Svea Solar, Tse Energy
Ltd, and ZIMMERMANN PV-Agri
|
Market Driver
The agrivoltaics market is experiencing significant growth due
to progressive policies and substantial investments in various
countries. France leads the way,
implementing the Act APER in March
2023, which supports solar power projects on farmlands while
maintaining agricultural production. By 2050, France aims to reach 100 gigawatts of solar
energy, with agrivoltaics playing a crucial role. The legal
framework has already generated a market turnover of USD121 million and is instrumental in
France's goal of 40% renewable
energy by 2030. Turkey is also
advancing in agrivoltaics, with a new project under the ODTU-GUNAM
Center for Solar Energy Research and Applications. This initiative
focuses on developing crop-specific tracker systems, enhancing
efficiency and productivity. The first agrivoltaics research
project in Turkey was inaugurated
in December 2023. These developments
underscore the expanding opportunities in the global agrivoltaics
market, driven by innovative policies, investments, and the dual
benefits of solar energy and agriculture production. As more
countries adopt similar frameworks, the agrivoltaics sector is set
for substantial growth, contributing to sustainable energy and
agricultural practices worldwide. This trend is expected to
positively impact the market during the forecast period.
Agrivoltaics, the fusion of agriculture and photovoltaics, is
gaining momentum in the global market. This innovative approach
allows for the co-location of solar panels and crop production,
maximizing land use efficiency. Dual-use solar, also known as
agrophotovoltaics, benefits various crop types, including
vegetables, fruits, and even livestock grazing. Data analytics
plays a crucial role in optimizing crop production and solar energy
output. Soil moisture and water retention are enhanced through
rainwater harvesting and the use of organic and chemical
fertilizers. Agrivoltaics addresses soil degradation, food crisis,
and power crisis concerns. Fixed solar panels and dynamic
agrivoltaics, featuring microcrystalline, polycrystalline, and
monocrystalline PVs, are utilized in diverse agricultural
landscapes. Translucent photovoltaic technology supports grassland
farming and horticulture. The energy transition towards sustainable
farming practices increases crop efficiency, food demand
satisfaction, and biodiversity preservation. Utility-scale solar
farms and ground-mounted PV plants employ array configurations like
fixed and single-axis tracking, monofacial and bifacial solar
panels. Agrivoltaics: a sustainable solution for the future of
agriculture and solar energy.
Request Sample of our comprehensive
report now to stay ahead in the AI-driven market evolution!
Market Challenges
- The global agrivoltaics market is currently facing
challenges in achieving widespread commercial adoption due to the
limited variety of crops and agricultural settings tested in pilot
projects. In India, for instance,
agrivoltaics pilots primarily focus on a narrow range of crops and
specific farming conditions. A major concern among farmers is the
potential reduction in crop yield due to shading from solar panels.
While some pilot projects have reported increased yields for
certain crops like medicinal crops and leafy vegetables, the
overall acceptance of agrivoltaics remains cautious. Crops such as
pepper, coffee, cardamom, brinjal, cabbage, tomato, potato, beans,
lentils, geranium, spices, medicinal plants like chili, cumin, aloe
vera, lemon grass, and coriander have been tested in India. However, the commercial scalability of
these projects is constrained by the specific requirements of
different crops. To overcome these challenges, it is essential to
expand the scope of agrivoltaics research to include a broader
range of crops and diverse agricultural settings. This will help in
identifying optimal conditions for various crops and enhance the
commercial viability of agrivoltaics systems. Addressing these
limitations is crucial for the global agrivoltaics market to
achieve its full potential and contribute to sustainable
agricultural and energy solutions. The limited commercial reach of
agrivoltaics will negatively impact the market during the forecast
period.
- Agrivoltaics, the fusion of solar energy and agricultural
practices, presents exciting opportunities for renewable energy
production and agricultural output. However, implementing this
innovative solution comes with challenges. Utility-scale solar
farms and ground-mounted PV plants require careful array
configuration, with options between fixed and single-axis tracking
systems. Monofacial solar panels versus bifacial or
translucent photovoltaic technology impact crop yields and
land efficiency. For farmers, integrating Agrivoltaics into
grassland farming, horticulture, and indoor farming can provide
dual-revenue streams. Yet, challenges include pollinator habitat,
carbon sequestration, and greenhouse gas emissions. Solar panels
can influence microclimate, affecting crop types like root crops.
Dynamic panels versus fixed panels impact solar energy generation
and agricultural productivity. Irrigation solutions, energy demand,
transmission losses, cold storage, and market challenges related to
renewable capacity and agricultural output also need consideration.
Tracking equipment and soil sensors are essential for optimizing
Agrivoltaics, addressing climate change, and ensuring sustainable
farming practices. By overcoming these challenges, Agrivoltaics can
contribute to a more sustainable future, balancing energy
production and agricultural productivity while minimizing
environmental impact.
Discover how AI is revolutionizing market
trends- Get your access now!
Segment Overview
This agrivoltaics market report extensively covers market
segmentation by
- Type
- 1.1 Fixed panel
- 1.2 Dynamic panel
- Application
- 2.1 Outdoor farming
- 2.2 Indoor farming
- 2.3 Others
- Geography
- 3.1 North America
- 3.2 Europe
- 3.3 APAC
- 3.4 Middle East and
Africa
- 3.5 South America
1.1 Fixed panel- Fixed panel agrivoltaics is a
growing segment in the agrivoltaics market, where solar panels are
installed at a fixed angle above agricultural land to optimize
solar energy capture. These systems are elevated above the ground,
enabling farmers to continue their agricultural activities below.
Fixed panel installations are common in large-scale projects
exceeding 5 MW due to their simplicity in design and installation,
as well as their cost-effectiveness. The integration of solar
panels with agriculture provides shade, improving animal welfare
and supporting the growth of permanent flora and grassland, which
can be used for grazing. Fixed panel systems also offer economic
benefits by providing farmers with an additional revenue stream
from energy production. Their ability to protect crops from harsh
weather conditions and maximize land use efficiency makes them a
popular choice for regions with limited arable land. The ongoing
development and optimization of fixed panel agrivoltaics systems
are expected to drive further adoption, contributing to sustainable
energy production and agricultural resilience. In summary, fixed
panel agrivoltaics systems offer practical and efficient solutions
for integrating solar energy production with agriculture, enhancing
land use efficiency, supporting agricultural productivity, and
providing economic benefits. These factors will continue to drive
the growth of the fixed panel agrivoltaics segment and the
agrivoltaics market as a whole.
Download a Sample of our
comprehensive report today to discover how AI-driven innovations
are reshaping competitive dynamics
Research Analysis
Agrivoltaics, also known as agricultural photovoltaics, is an
innovative approach that combines solar energy production with
agricultural practices. This system allows the co-location of
ground-mounted PV plants and crops, maximizing land efficiency. The
array configuration can be fixed or use single-axis tracking to
optimize solar energy production. Monofacial solar panels are
commonly used in agrivoltaics. Crop yields can benefit from the
shade provided by solar panels, particularly for root crops and
other temperature-sensitive plants. Agrivoltaics also offers
advantages in water management, with potential for rainwater
harvesting and soil moisture retention. Organic fertilizers can
replace chemical fertilizers, reducing greenhouse gas emissions and
mitigating soil degradation. In agro-based economies, agrivoltaics
can contribute to climate change mitigation and renewable energy
production. The microclimate created by the solar panels can help
protect crops from extreme temperatures and droughts. Overall,
agrivoltaics is a promising solution for increasing energy
production while maintaining crop production and addressing food
security concerns.
Market Research Overview
Agrivoltaics, the integration of solar energy production and
agricultural practices, is revolutionizing the renewable energy
landscape. By installing solar panels on agricultural land, farmers
can generate electricity while maintaining crop yields and even
enhancing land efficiency. Utility-scale solar farms and
ground-mounted PV plants are common configurations for
agrivoltaics, with array configurations including fixed and
single-axis tracking. Monofacial and bifacial solar panels,
translucent photovoltaic technology, and dynamic panels are used.
Agrivoltaics benefits various agricultural practices such as
grassland farming, horticulture, and indoor farming, while
providing pollinator habitats and contributing to carbon
sequestration and environmental conservation. Dual-revenue streams
from energy production and agricultural output make agrivoltaics an
attractive option for agro-based economies facing climate change.
Agrivoltaics also addresses challenges like droughts, irrigation
solutions, and energy demand, while reducing greenhouse gas
emissions and transmission losses. Crop types and agricultural
landscapes vary, with photovoltaics (PVs) used for dual-use solar,
crop production, and soil moisture management. Organic and chemical
fertilizers, soil sensors, data analytics, and crop types are all
important considerations in agrivoltaics. The market faces
challenges like renewable capacity expansion, agricultural output,
tracking equipment, and soil degradation, but the potential
benefits for food and power crises make it a promising solution for
the energy transition and sustainable farming.
Table of Contents:
1 Executive Summary
2 Market Landscape
3 Market Sizing
4 Historic Market Size
5 Five Forces Analysis
6 Market Segmentation
- Type
-
- Fixed Panel
- Dynamic Panel
- Application
-
- Outdoor Farming
- Indoor Farming
- Others
- Geography
-
- North America
- Europe
- APAC
- Middle East And Africa
- South America
7 Customer Landscape
8 Geographic Landscape
9 Drivers, Challenges, and Trends
10 Company Landscape
11 Company Analysis
12 Appendix
About Technavio
Technavio is a leading global technology research and advisory
company. Their research and analysis focuses on emerging market
trends and provides actionable insights to help businesses identify
market opportunities and develop effective strategies to optimize
their market positions.
With over 500 specialized analysts, Technavio's report library
consists of more than 17,000 reports and counting, covering 800
technologies, spanning across 50 countries. Their client base
consists of enterprises of all sizes, including more than 100
Fortune 500 companies. This growing client base relies on
Technavio's comprehensive coverage, extensive research, and
actionable market insights to identify opportunities in existing
and potential markets and assess their competitive positions within
changing market scenarios.
Contacts
Technavio Research
Jesse Maida
Media & Marketing Executive
US: +1 844 364 1100
UK: +44 203 893 3200
Email: media@technavio.com
Website: www.technavio.com/
View original content to download
multimedia:https://www.prnewswire.com/news-releases/agrivoltaics-market-to-grow-by-usd-1-99-billion-2024-2028-as-agrivoltaic-benefits-drive-growth-ai-redefined-market-landscape-report---technavio-302290368.html
SOURCE Technavio