Photovoltaic building is a new concept of applying solar power generation and is a perfect combination of solar photovoltaic system and modern building. It lays photovoltaic modules on the outer surface of building structure to provide electricity, integrating solar power generation system with roof, skylight, curtain wall and other buildings, building green and environmental protection housing.

In BIPV, BAPV is relatively mature. Currently, BIPV is in the initial stage. Under the guidance of “double carbon target”( that is, to achieve peak carbon dioxide emissions by 2030 and carbon neutrality by 2060), building energy efficiency and distributed PV policy, and continuous progress in BIPV standards, global BIPV and the market is expected to witness a rapid rise.

As of 2020, BIPV accounted for about 50% of the global distributed PV installed capacity, about 15% of the total PV installation. The combination of PV and building is gradually becoming an important part of the PV installation, which is dominated by the combination of PV building and BAPV.

In the world, the total installed capacity of BIPV in 2019 and 2020 amounted to 1.15GW and 2.3GW respectively, which is still in the initial stage before large-scale development, with huge space for future development.

According to CRI’s analysis, overall, the impact of COVID-19 on the global PV industry is relatively small.

In 2020, global newly installed capacity of PV reached 130GW, up 13% YOY; China’s newly installed capacity of PV was 48.2GW, up 60% YOY, ranking first in the world for 8 consecutive years, and the cumulative installed capacity reached 253GW, ranking first in the world for 6 consecutive years.

On October 24, 2021, China’s State Council issued the “Action Plan to Achieve Peak Carbon Dioxide Emissions by 2030” to accelerate green changes in production and lifestyle, promote economic and social development based on the efficient use of resources and green low-carbon development, and ensure that the goal of peak carbon dioxide emissions by 2030 is achieved on schedule.

The program calls for vigorous development of new energy, accelerating the development of intelligent photovoltaic industry, and promoting the diversified layout of photovoltaic power generation. It is planned that by 2030, the total installed capacity of wind and solar power generation in China should reach more than 1.2 billion kilowatts.

At the same time, the optimization of building energy structure should be accelerated. It is planned that by 2025, the replacement rate of urban buildings renewable energy should reach 8%, the photovoltaic coverage rate of new public institutions buildings and new plant roofs should reach 50%.

According to CRI’s analysis, in 2020, the rapid growth of China’s domestic photovoltaic power generation directly led to the great development of China’s photovoltaic industry chain links. In 2020, China’s polysilicon production was 392,000 tons, up 14.6% YOY; silicon wafer production 161.3GW, up 19.7%; cell production 134.8GW, up 22.2% YOY; module production 124.6 GW, up 26.4% YOY.

China’s production scale of each link in PV industry chain accounted for more than 50% of the world and continues to maintain the world’s first. The great development of China’s photovoltaic industry has also promoted the technological progress of the industry, leading to the further reduction in the production cost of photovoltaic products and electricity.

In recent years, China’s construction area of real estate development enterprises housing continues to increase. In 2020, housing construction area increased to 9.26759 billion square meters.

The Ministry of Housing and Construction indicated that in 2020, there were 630 million square meters of new assembled buildings in China, accounting for about 20% of the total new construction area, or about 3.15 billion square meters of new construction area in 2020. Moreover, China’s existing building area excels 40 billion square meters. All these indicates that there exists a huge potential for the BIPV market.

CRI expects that in 2022-2030, global and China’s PV market demand will continue to rise, and for investors, there are many investment opportunities in the BIPV industry chain.

Topics covered:

• BIPV Market Overview
• Economic and policy environment of BIPV
• What is the impact of COVID-19 on the BIPV industry?
• Global and China’s BIPV Market Size, 2016-2021
• Analysis of Major BIPV Companies
• Key drivers and market opportunities in the BIPV industry
• What are the key drivers, challenges, and opportunities for the BIPV industry during the forecast period of 2022-2030?
• Which are the key players in the BIPV market and what are their competitive advantages?
• What is the expected revenue of the BIPV market during the forecast period of 2022-2030?
• What are the strategies adopted by the key players in the market to increase their market share in the sector?
• Which segment of the BIPV market is expected to dominate the market in 2030?
• What are the major adverse factors facing the BIPV industry?

Related reports:

• Research Report on Vietnam’s Photovoltaic Market, 2016-2030
• Research Report on Global and China’s Polysilicon Industries, 2019-2023

The post Research Report on Global and China’s BIPV Market, 2016-2030 first appeared on CRI Report.

As of the end of 2020, Vietnam has accumulated more than 16GW of photovoltaic installed capacity, ranking third in the world’s newly installed capacity in 2020, second only to China and the United States. Among them, the new rooftop photovoltaic installations in 2020 exceeded 9GW, involving about 100,000 households, and the onshore and offshore photovoltaic installations exceeded 1GW.

Vietnam became the world’s third largest photovoltaic market in 2020.

It is estimated that by 2025, Vietnam’s national electricity demand will reach 90,000 megawatts. It is estimated that from 2022 to 2030, Vietnam’s GDP will grow at an annual rate of 6.5%-7.5%, the annual growth rate of electricity demand will reach 7%, and the demand will reach 130,000 megawatts by 2030. According to CRI’s analysis, Vietnam is a very attractive market for foreign investors.

Vietnam is one of the Southeast Asian countries with the richest solar energy, with 2000-2500 hours of sunshine per year and 5kWh per square meter per day. In the ASEAN, according to the projects being developed and reserved by photovoltaic developers, Vietnam is the market with the most completed projects and reserved projects.

Scatec Solar and EVN (Electricity of Vietnam) each have a project plan of more than 500MW. Trungnam Group and Xuan Thien Group each completed photovoltaic power plants of more than 1GW.

In February 2021, Vietnam announced Vietnam’s eighth power plan draft (PDP VIII), which raised the renewable energy development target by nearly 70% to 45 GW by 2030, including 20 GW for photovoltaics.

Vietnam’s photovoltaic industry also has photovoltaic curtailment risks. Vietnam is a long and narrow land with uneven distribution of sunlight resources. Under the condition of a unified FIT electricity price across the country, photovoltaic projects are concentrated in southern Vietnam. In addition, the power grid in Vietnam is weak, and the photovoltaic projects are at risk of power curtailment.

According to CRI’s analysis, although Vietnam has become one of the fastest-growing markets for electricity in renewable energy in Asia, the lagging development of its power system and the surge in installed renewable energy power capacity pose a huge challenge to the stability of the power grid in Vietnam.

In Vietnam, photovoltaic power generation has accounted for a quarter of the total power generation of the power system. This explosive growth has affected the stability of Vietnam’s power distribution system.

According to CRI’s analysis, in 2020, Vietnam imported 14.6GW of photovoltaic modules. In November, the monthly import volume reached to the peak of 3.9GW. Currently, Vietnam’s photovoltaic module market is mainly occupied by foreign-funded enterprises.

Among them, Chinese companies Jinko, JA Solar, LONGI, Trina, and a Canadian company, Canadian Solar Inc. rank among the top 5 in the total imported photovoltaic modules in Vietnam.

In 2020, in Vietnam’s PV module shipments, monocrystalline PV modules accounted for 89%, 72-cell solar panel accounted for 63%, and the mainstream power of module was 440-450W. The demand for photovoltaic modules in Vietnam is also transforming to monocrystalline and large silicon wafers.

From January to July 2021, the total amount of components imported by Vietnam from China was less than 1,000 MW, which is less than a quarter of the volume in November 2020. This is due to the large number of rooftop photovoltaic installations in Vietnam in 2020, which was stimulated by the national subsidy policy.

In April 2021, Vietnam reduced the amount of subsidies, causing the import volume of photovoltaic modules in Vietnam to plummet. Compared with the continued decline in module shipments, China’s exports of solar cells and silicon wafers to Vietnam in July 2021 rebounded, reaching USD19 million and USD80 million respectively, an increase of 53% and 182% compared with June.

On the whole, Vietnam’s short-term demand for imported photovoltaic modules has decreased, but the demand for solar cells and silicon wafers is stable.

Local companies in Vietnam’s photovoltaic industry are also expanding rapidly. SolarBK is the leading manufacturer of solar panels in Vietnam. For example, at the end of 2017, IREX, a member of SolarBK, completed the first phase of a solar panel and solar cell factory with a capacity of 500MW in the southern Ba Ria-Vung Tau Province.

IREX’s factory was established in 2012 and has a modern production line that can produce photovoltaic cells of 300MW per year. IREX said that 40% of locally manufactured photovoltaic modules have been exported to the European and North American markets since 2018.

According to CRI’s forecast, as one of the hottest photovoltaic markets in Southeast Asia, Vietnam has the natural advantage of developing photovoltaic energy, and with the economic development, the demand for electricity in Vietnam is growing at a high pace. Therefore, the market will attract a lot of investment during 2022-2030.

Topics covered:

• Overview of Vietnam’s photovoltaic industry
• Economic and policy environment of Vietnam’s photovoltaic market
• What is the impact of COVID-19 on the photovoltaic industry in Vietnam?
• Vietnam’s photovoltaic market size, 2016-2021
• Analysis of major photovoltaic companies in Vietnam’s market
• Main driving forces and market opportunities of Vietnam’s photovoltaic industry
• What are the main driving forces, challenges and opportunities of the photovoltaic industry in Vietnam during the forecast period of 2022-2030?
• Which companies are the main players in Vietnam’s photovoltaic market, and what are their competitive advantages?
• What is the expected revenue of Vietnam’s photovoltaic market during the forecast period from 2022-2030?
• What are the strategies adopted by the major players in the market to increase their market share?
• Which part of the Vietnam’s photovoltaic market is expected to dominate the market in 2030?
• What are the main adverse factors faced by Vietnam’s photovoltaic industry?

Related reports:

Research Report on Photovoltaic Industry in China, 2016-2020

Research Report on China’s Photovoltaic Industry, 2018-2022

Global Concentrated Photovoltaic (CPV) Market Research Report – Forecast To 2023

The post Research Report on Vietnam’s Photovoltaic Market, 2016-2030 first appeared on CRI Report.

The photovoltaic industry develops rapidly in China in recent years. China became the world’s largest producer of photovoltaic products in 2007 with the export value of USD 2,838 million. In 2014, the total import and export value of Chinese solar photovoltaic products was USD 18.28 billion, increasing by 15.09% YOY. Among that, the export value was USD 14.41 billion, increasing by 17.27% YOY; the import value was USD 3.87 billion, up by 7.62% YOY.

Judged from the export structure and the market, Chinese export of photovoltaic products still has the following problems: it relies too much on processing trade and has not formed an autonomous R&D system; the structure of export market is not stable; the risk of trade friction exists in emerging markets at any time. 

After nearly 10 years of rapid development, China photovoltaic industry entered into a difficult period as overseas photovoltaic market shrank in 2011. Developing domestic markets became the consensus of the government and enterprises. China is rich in solar energy resource with the theoretical reserves equal to 1.7 trillion tons of standard coal every year. The potential of the exploitation of solar energy resource is enormous. China is situated in the northern hemisphere with the distance between the north and the south and that between the east and the west are both over 5,000 km. There is abundant solar energy resource in the vast land of China. In most places, the annual average daily radiation is more than 4 kWh/m² and the annual sunshine duration is over 2,000 h, so there exists a huge development potential.

In recent years, as China’s demand for energy increases, the environment protection pressure grows. After the great setback against it caused by trade protection of western countries in 2012, China photovoltaic industry is gradually returning to a sensible state, reshaping supply and demand relationship and approaching the balance of market pattern. With the deepening of the idea of environment protection and the fluctuation of the price of fossil fuels, Chinese government has formulated a series of policies to support the downstream application of photovoltaic industry since 2013. New photovoltaic installed capacity reached 11.3 GW in 2013, increasing by 126% than that in 2012 and ranking the first in the world.

In 2014, the total photovoltaic power generation grid capacity was 28.05 MW, increasing by 60% YOY, including 23.38 MW in photovoltaic power stations and 4.67 MW of distributed photovoltaic power. The annual photovoltaic power generating capacity is about 25 billion kilowatt-hours, increasing by 200% YOY.

In 2014, new grid photovoltaic power generation capacity was 10.60 MW, occupying about a quarter of that of the whole world and a third of the output of Chinese photovoltaic cell modules, realizing the target of an annual increase of 10 MW put forward in Suggestions on Promoting the Healthy Development of Photovoltaic Industry, with 8.55 MW in photovoltaic power stations and 2.05 MW of distributed photovoltaic power.

Chinese photovoltaic battery manufacturers continued to keep strong international competitiveness in 2014. Among the famous enterprises which were the top ten in terms of global output, China occupied six places while top 4 were all Chinese enterprises. In terms of the development of upstream photovoltaic industry, the domestic output of polysilicon was about 130,000 tons in 2014, increasing by 50% YOY, while the import volume was about 90,000 tons. The total output of photovoltaic cell modules was over 33 million kilowatts, increasing by 17% YOY. The proportion of export was about 68%. Most enterprises improved their capacity utilization. The average capacity utilization of top 10 enterprises was over 87%.

To some extent, China photovoltaic industry still faces the situation where raw materials and market rely on overseas markets. As photovoltaic products are export-focused, it is very easy to cause trade friction. In the meantime, as the overall profit level of China photovoltaic industry is low, investment in R&D is insufficient. Therefore, most photovoltaic enterprises have not yet developed a mature R&D system and the technical level of products is universally low.

Through this report, the readers can acquire the following information:

-Policy and Economic Environment in China Photovoltaic Industry

-Development Status of Photovoltaic Power Stations and Distributed Photovoltaic in China

-Supply and Demand in China Photovoltaic Industry

-Major Photovoltaic Manufacturers in China

-Anti-dumping against Photovoltaic Enterprises in China

-Import and Export of PV

-Forecast on Development of China Photovoltaic Industry

The Following Enterprises and People Are Recommended to Purchase This Report:

-Enterprises Related to Industry Chain of PV

-Photovoltaic Enterprises

-Investors/Research Institutes Concerned About China Photovoltaic Industry

Table of Contents

1 Overview of Photovoltaic Industry

1.1 Definition and Classification

1.1.1 Definition

1.1.2 Classification

1.2 Analysis of Photovoltaic Industry Chain

1.2.1 Polysilicon

1.2.2 Photovoltaic Cells

1.2.3 Photovoltaic Modules

1.2.4 Photovoltaic Power Station Inverter

1.3 Overview of Global Photovoltaic Industry

2 Development Environment of Photovoltaic Industry in China, 2011-2015

2.1 Economic Environment

2.1.1 Global Economy

2.1.2 China Economy

2.2 Policy Environment

2.2.1 Policy Overview

2.2.2 Policy Trend

3 Status of Photovoltaic Industry in China, 2011-2015

3.1 Supply

3.1.1 Production Capacity

3.1.2 Output Volume

3.2 Demand

3.2.1 International Market

3.2.2 Market in China

4 Industry Chain of Photovoltaic in China, 2011-2015

4.1 Constitution of Photovoltaic Industry Chain

4.1.1 Overview

4.1.2 Polysilicon

4.1.3 Modules and Cell Pieces

4.1.4 Photovoltaic Electric Station and Distributed Photovoltaic

4.2 Analysis of Costs in Photovoltaic Industry Chain

4.2.1 Upstream Costs

4.2.2 Downstream Generating Costs

5 Key Areas of Photovoltaic Industry in China, 2011-2015

5.1 Analysis of Photovoltaic Electric Station by Region

5.1.1 Overview

5.1.2 Gansu

5.1.3 Qinghai

5.1.4 Xinjiang

5.1.5 Ningxia

5.1.6 Inner Mongolia

5.1.7 Jiangsu

5.2 Analysis of Distributed Photovoltaic by Region

5.2.1 Zhejiang

5.2.2 Hunan

5.2.3 Guangdong

5.2.4 Jiangsu

5.2.5 Shandong

5.3 Plan of Regional Development of Photovoltaic Industry

6 Analysis of Import and Export and Trade Friction of Photovoltaic in China, 2011-2015

6.1 Export

6.1.1 Export Overview

6.1.2 Major Export Destinations

6.2 Import

6.2.1 Import Overview

6.2.2 Major Sources of Import

6.3 Trade Barriers against Photovoltaic Enterprises in China

7 Key Enterprises in China Photovoltaic Industry, 2011-2015

7.1 Module Manufacturers

7.1.1 Trina Solar

7.1.2 Yingli Solar

7.1.3 Canadian Solar Inc.

7.1.4 JinkoSolar Holding Co., Ltd.

7.1.5 JA SOLAR Co., Ltd.

7.1.6 Zhejiang Renesola

7.1.7 Hanwha SolarOne Co., Ltd.

7.1.8 Astronergy

7.1.9 Risen Energy Co., Ltd.

7.1.10 HAREON SOLAR Co., Ltd.

7.2 Photovoltaic Power Station Inverter Manufacturers

7.2.1 Sungrow Power Supply Co., Ltd.

7.2.2 Huawei Technologies Co., Ltd.

7.2.3 TBEA

7.2.4 Wuxi God’s Power New Energy Co., Ltd.

7.2.5 Kstar

7.2.6 Kelong

7.2.7 East

7.2.8 Chint Power

7.2.9 Surpass Sun Electric

7.2.10 Zeversolar

8 Prospect of China Photovoltaic Industry, 2016-2020

8.1 Factors Influencing Development

8.1.1 Policy Environment

8.1.2 Economic Situation

8.2 Forecast on Supply

8.2.1 Projects under Construction

8.2.2 Forecast on Production Capacity

8.2.3 Forecast on Output Volume

8.3 Forecast on Demand

8.3.1 International Market

8.3.2 Domestic Market

8.4 Discussion about Investment Opportunities

8.5 Recommendations on Investment and Development

Selected Charts

Chart Major Policies of Photovoltaic Industry in China, 2011-2015

Chart Output Volume of Solar Cells in China, 2007-2015

Chart Global Installation Volume of Photovoltaic, 2007-2015

Chart Installation Volume of Photovoltaic in China, 2007-2015

Chart Structure of Industry Chain of Photovoltaic in China

Chart Analysis of Costs in Different Mode of Electric Power Generation on 1 GW in China

Chart Export Value of Solar Cells in China, 2011-2015

Chart Import Volume of Polysilicon in China, 2011-2015

Chart Installation Status of Photovoltaic Electric Stations in Major Regions in China, 2015

Chart Regional Distribution of Distributed Photovoltaic in China, 2015

Chart Analysis of Production Capacity of Major Photovoltaic Enterprises in China by the end of 2015

Chart Major New Projects in China Photovoltaic Industry, 2011-2015

Chart Forecast on Installation Volume in China Photovoltaic Industry, 2014-2020

The post Research Report on Photovoltaic Industry in China, 2016-2020 first appeared on CRI Report.

Topics:
Development environment of China’s photovoltaic industry
Supportive and restrictive policies of the Chinese government on the photovoltaic industry
Analysis on China’s photovoltaic industry chain
Supply and demand analysis on China’s photovoltaic industry
Export analysis of China’s photovoltaic industry
Chinese photovoltaic manufacturers
Chinese photovoltaic market competition
Driving forces and opportunities of the photovoltaic industry from 2018 to 2022
Threats and Challenges of the photovoltaic industry
Prospects of China’s photovoltaic industry from 2018 to 2022

The post Research Report on China’s Photovoltaic Industry, 2018-2022 first appeared on CRI Report.

The production volume of China’s polysilicon reached 242,000 tons in 2017, representing a CAGR of 70.0% from 2007 to 2017. The newly installed photovoltaic bases in China reached 53 GW in 2017, ranking first in the world for five consecutive years. Besides, the total installed capacity amounted to 130 GW, taking the first place for three consecutive years. Production scales of every link in the domestic industry chain all took over 50% of the global total and continued to be leading in the world.

The export value of photovoltaic products, including wafer, cell, module and inverter, totaled USD 15.777 billion in 2017, increasing by 5.3% YOY. The export value of wafer, cell, module and photovoltaic inverter was respectively USD 2.968 billion, USD 0.797 billion, USD 10.61 billion and USD 1.402 billion, with a respective YOY increase of 14.4%, 17.39%, -1.2% and 46.3%. In addition, the export volume respectively reached 4.404 billion, 3.36 GW, 30 GW and 15.92 million units.

According to CRI, solar grade polysilicon is the main raw material for crystalline silicon photovoltaic cells. On top of this, there were 22 polysilicon enterprises in normal production by 2017, with the effective capacity totaling 280,000 tons, up by 70,000 tons over 2016. Among them, major manufacturers include GCL Silicon Technology Holdings Inc., TBEA Co., Ltd., Daqo New Energy Corp., etc. Also, by the end of 2017, the aggregate capacity of 10 enterprises, each of which exceeded 10,000 tons, accounted for more than 70% of the country’s total.

Since 2011, Ministry of Commerce of the PRC has made a series of anti-dumping investigations on imported polysilicon, thereby restraining the imports to some extent and promoting the local polysilicon industry. In 2017, the production volume of polysilicon in the world amounted to 436,000 tons, of which China made up about 55.5%. However, China still imported 159,000 tons of polysilicon, with an import dependency of 39.8%. With the continuous expansion of the domestic polysilicon production capacity, the proportion of imports is expected to decline gradually.

CRI analyzes that with the advancement of technology in recent years, both the utilization efficiency of polysilicon and the photoelectric conversion efficiency have risen continuously. Relevant statistics show that in 2017, to produce 224 W silicon wafer needed 1 kg silicon materials. As technology develops in 2018 (especially with the progress of slicing technology) and monocrystalline silicon is more widely applied in the photovoltaic industry, 1 kg silicon materials can produce 280 W silicon wafer. In 2017, the production volume of silicon wafer equivalent to the capacity of modules was 87.6 GW; while in 2018, the production volume of polysilicon is projected to reach 400,000 tons, and that of silicon wafer equivalent to the capacity of modules will amount to 112 GW. It is predicted that the total demand for photovoltaic modules in the global market will be 110 GW in 2018, and the capacity of China’s polysilicon will even surpass the global demand.

Based on CRI’s analysis, the main driving force for the growth of China’s polysilicon market in the next few years is still the demand from the photovoltaic industry, where the increase in domestic demand and exports is equally important. It is estimated that the emerging photovoltaic market will grow rapidly in the next few years. Among them, the installation demand mainly comes from Asia and America, and the market is also opening in Middle East and Africa.

CRI predicts that the demand for polysilicon in the Chinese market still has large room to increase. Although the production of polysilicon can gradually meet the domestic demand, monocrystalline silicon has been popular since 2016, which needs to be made of high-quality polysilicon raw materials. Concerned about the quality of domestic polysilicon, Chinese manufacturers of single wafer still import high-purity one from Germany and South Korea. It is forecasted that China will import over 100,000 tons of polysilicon a year from 2018 to 2022.

Selling Points:

– Economy and Policy Environment Faced by China Polysilicon Industry

– Development Status of Photovoltaic Industry

– Anti-dumping Measures of Chinese Government against Imported Polysilicon

– Supply and Demand of Polysilicon in China

– Polysilicon Import and Export in China, 2013-2017

– Market Competition of Polysilicon in China

– Price Trend of Polysilicon in China

– Major Polysilicon Manufacturers in China

– Driving Forces and Market Opportunities in Polysilicon Industry

– Risks and Challenges Faced by Polysilicon Industry

– Development Trend of China Polysilicon Industry

The post Research Report on China’s Solar Polysilicon Industry, 2018-2022 first appeared on CRI Report.

Objective of Global Solar rooftop Market Analysis & Forecast, from 2016 to 2023
• To provide insights about factors influencing and affecting the market growth.
• To provide historical and forecast revenue of the market segments as well as sub-segments with respect to regional markets and their key countries
• To provide historical and forecast revenue of the market segments based on operating system.
• To provide strategic profiling of key players in the market, comprehensively analyzing their market share, core competencies, and drawing a competitive landscape for the market

Target Audience
• Manufactures
• Raw materials suppliers
• Aftermarket suppliers
• Research institute & education institute
• Potential investors
• Key executive (CEO and COO) and strategy growth manager

Key Findings
• On the basis of capacity, the market is segmented as Upto 10 kW, 11 kW- 100 kW, and More than 100 kW. 11 kW- 100kW dominate the global solar rooftop market with a share of 40.3% in 2016, in terms of value. It is expected to grow at a CAGR of 21.54% during the forecast period.
• On the basis of connectivity, the market is segmented as On-Grid, and Off-Grid. On-Grid based solar rooftop dominate the market with a share of 74.6% in 2016, in terms of value. It is expected to grow at a CAGR of 20.38% during the forecast period.
• On the basis of end-user, the market is segmented as Residential, Commercial and Industrial. Commercial dominated the global solar rooftop market with a share of 42.4% in 2016, in terms of value. It is expected to grow at a CAGR of 21.96% during the forecast period.
• Asia-Pacific accounted for the largest market share of 47.6% in 2016, followed by Europe which is expected to grow at a CAGR of 19.14% during the forecast period. North America is expected to grow from a market size of USD 7,284.9 million in 2016 to USD 21,722.8 million by the end of 2023. The rest of the world accounted for a market share of 3.5% in 2016 and is expected to grow at a CAGR of 20.23% during the forecast period.

The regional analysis also includes –
• North America
o U.S.
o Canada
• Europe
o Germany
o U.K.
o Spain
o France
o Italy
o Rest of Europe
• Asia-Pacific
o China
o Japan
o India
o Australia
o Rest of Asia-Pacific
• Rest of the World
o Africa
o Middle East
o Latin America

Table of Contents

1 Executive summary 12
2 Introduction 14
2.1 Definition 14
2.2 Scope of the Study 14
2.3 Assumptions 14
2.4 Market Structure 15
3 Research Methodology 16
3.1 Research Process 16
3.2 Primary Research 17
3.3 Secondary Research 17
3.4 Market Size Estimation 17
3.5 Forecast Model 19
4 Market Dynamics 20
4.1 Drivers 21
4.2 Restraint 24
4.3 Opportunity 25
5 Market Factor Analysis 26
5.1 Porter’s 5 Forces Analysis 26
5.1.1 Threat of New Entrants 27
5.1.2 Bargaining Power of Suppliers 27
5.1.3 Threat of Substitutes 27
5.1.4 Bargaining Power of Buyers 27
5.1.5 Segment Rivalry 27
5.2 Value Chain Analysis 28
6 Global Solar Rooftop Market, By Capacity 29
6.1 Introduction 30
6.2 Upto 10 kW 32
6.3 11 kW- 100 kW 32
6.4 More than 100 kW 32
7 Global Solar Rooftop Market, By Connectivity 33
7.1 Introduction 34
7.2 On- Grid 35
7.3 Off-Grid 35
8 Global Solar Rooftop Market, By End-User 36
8.1 Introduction 37
8.2 Residential 39
8.3 Commercial 39
8.4 Industrial 40
9 Solar Rooftop Market, By Region 41
9.1 Introduction 42
9.2 Asia-Pacific 44
9.2.1 China 47
9.2.2 Japan 50
9.2.3 India 53
9.2.4 Australia 56
9.2.5 Rest of Asia-Pacific 58
9.3 Europe 61
9.3.1 Germany 64
9.3.2 U.K. 67
9.3.3 Spain 70
9.3.4 France 73
9.3.5 Italy 75
9.3.6 Rest of Europe 78
9.4 North America 81
9.4.1 U.S. 84
9.4.2 Canada 87
9.5 Rest of the World 89
9.5.1 Middle East 92
9.5.2 Africa 95
9.5.3 Latin America 97
10 Company Profiles 100
10.1 Competitive Scenario 100
10.1.1 Competitive Landscape 100
10.1.2 Partnerships and Collaborations 101
10.1.3 New Product Development. 102
10.1.4 Expansions 103
10.2 SMA Solar Technology AG 104
10.2.1 Company Overview 104
10.2.2 Financial Overview 104
10.2.3 Product/Service Offering 105
10.2.4 Strategy 105
10.2.5 Swot Analysis 106
10.3 Trina Solar 107
10.3.1 Company Overview 107
10.3.2 Financial Overview 108
10.3.3 Product/Service Offering 109
10.3.4 Strategy 110
10.3.5 Swot Analysis 111
10.4 Yingli Solar 112
10.4.1 Company Overview 112
10.4.2 Financial Overview 112
10.4.3 Product/Service Offering 113
10.4.4 Strategy 115
10.4.5 Swot Analysis 116
10.5 Canadian Solar Inc. 117
10.5.1 Company Overview 117
10.5.2 Product/Service Offering 118
10.5.3 Financial Overview 120
10.5.4 Strategy 120
10.5.5 Swot Analysis 122
10.6 SunPower Corporation 123
10.6.1 Company Overview 123
10.6.2 Financial Overview 123
10.6.3 Product/Service Offering 124
10.6.4 Strategy 125
10.6.5 Swot Analysis 126
10.7 Delta Energy Systems 127
10.7.1 Company Overview 127
10.7.2 Financial Overview 127
10.7.3 Product/Service Offering 128
10.7.4 Strategy 128
10.7.5 Key Development (2015-2017) 129
10.8 JA Solar Holdings Co., Ltd. 130
10.8.1 Company Overview 130
10.8.2 Financial Overview 130
10.8.3 Product/Service Offering 131
10.8.4 Strategy 132
10.8.5 Swot Analysis 133
10.9 Jinko Solar Holding Co., Ltd. 134
10.9.1 Company Overview 134
10.9.2 Product/Service Offering 135
10.9.3 Financial Overview 136
10.9.4 Strategy 137
10.9.5 Swot Analysis 138
10.10 Shunfeng International Clean Energy Limited. 139
10.10.1 Company Overview 139
10.10.2 Product/Service Offering 139
10.10.3 Financial Overview 140
10.10.4 Strategy 141
10.11 SolarWorld AG 142
10.11.1 Product/Service Offering 142
10.11.2 Financial Overview 143
10.11.3 Strategy 144
10.12 Tata Power Solar Systems Ltd. 145
10.12.1 Company Overview 145
10.12.2 Product/Service Offering 145
10.12.3 Financial Overview 146
10.12.4 Strategy 146
10.13 ABB Ltd. 147
10.13.1 Product/Service Offering 147
10.13.2 Financial Overview 147
10.13.3 Strategy 148

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Key Players
Key players covered in the global concentrator photovoltaic (CPV) market report are Radical Sun Systems, Inc. (U.S.), SolAero Technologies Corp. (U.S.), Arzon Solar LLC. (U.S.), Cool Earth Solar (U.S.), Morgan Solar Inc. (Canada), ARIMA Group (Taiwan), Suncore Photovoltaic Technology Company Limited (China), Guangdong Redsolar Photovoltaic Technology Co. Ltd (China), Sumitomo Electric Industries, Ltd. (Japan), Saint-Augustin Canada Electric Inc. (STACE) (Canada), Sanan Optoelectronics Technology Co., Ltd (China), Suntrix Company Ltd (China), Macsun Solar Energy Technology Co., Ltd. (China), and others.

Target Audience
• Manufactures
• Raw materials suppliers
• Aftermarket suppliers
• Research Institute & education institute
• Potential investors
• Key executive (CEO and COO) and strategy growth manager

Key Findings
• Global concentrator photovoltaic (CPV) market is expected to reach USD 2,710.6 million by 2023
• By type, high concentrated photovoltaic (HCPV) segment dominated the global concentrator photovoltaic (CPV) market with 93.14% of share in 2016, in terms of value. It is expected to show the highest growth at a CAGR of 11.63% during the forecast period
• By application, utility segment accounted for the market value of USD 868.8 million in 2016 and is projected to grow at a CAGR of 11.70% during the forecast period
• Geographically, Asia Pacific is projected to hold the largest share of the global concentrator photovoltaic (CPV) market with a share of 52.55%.
Regional and country level analysis and forecast of the global concentrator photovoltaic (CPV) market
Asia Pacific is one of the major regions in the global concentrator photovoltaic market. It accounted for the largest market share of 52.55% in 2016, with a market value of USD 536.1 million and is projected to grow at the highest CAGR of 11.84% during the forecast period. The demand for energy is increasing on account of growing population and rising disposable income in the region. Moreover, these rapidly growing economies in this region are also the major polluters in the world. CPV is identified as the best replacement to other conventional fossil fuel energy sources that are used to reduce carbon emission by effectively meeting the electricity needs. The American solar industry is quite developed than that of other regions of the world. According to the World Energy Agency, location, incentives, and government policies are majorly contributing to the growth of the market. Thus, Americas CPV market is expected to grow at a CAGR of 10.62% during the forecast period.
The reports also cover country-level analysis:
• Americas
o U.S.
o Mexico
o Rest of Americas
• Europe
o Spain
o Italy
o France
o Portugal
o Rest of Europe
• Asia Pacific
o China
o Taiwan
o Australia
o Rest of Asia Pacific
• Middle East & Africa
o Middle East
o Africa

Table of Content:

1 Executive Summary
2 Market Introduction
2.1 Definition
2.2 Scope of the Study
2.3 List of Assumptions
2.4 Market Structure
3 Research Methodology
3.1 Research Process
3.2 Primary Research
3.3 Secondary Research
3.4 Market Size Estimation
3.5 Forecast Model
4 Market Dynamics
4.1 Introduction
4.2 Drivers
4.2.1 Growing Solar Systems Installation
4.2.2 CPV is Highly Efficient in Sun-Rich Regions
4.3 Restraint
4.3.1 Downfall in Global CPV installation since last 5 years
4.4 Opportunity
4.4.1 Focus on CPV Simulation Software
4.5 Challenge
4.5.1 CPV Tracking System Synchronization
5 Market Factor Analysis
5.1 Porter’s Five Forces Analysis
5.1.1 Threat of new entrants
5.1.2 Bargaining power of suppliers
5.1.3 Threat of substitutes
5.1.4 Bargaining power of buyers
5.1.5 Rivalry
5.2 Supply Chain Analysis
6 Global Concentrated Photovoltaic (CPV) Market: Industry Overview
6.1 Overview
6.2 Concentrated Photovoltaic (CPV) Installed Capacity, 2012-2023 (MW)
6.3 Concentrated Photovoltaic (CPV) Installed Capacity, 2012-2016 (MW) (Historical)
6.4 Concentrated Photovoltaic (CPV) Installed Capacity, 2017-2023 (MW) (Forecast)
6.5 Concentrated Photovoltaic (CPV) Installed Capacity, By Major Country, 2016 (MW)
7 Global Concentrated Photovoltaic (CPV) Market, By Type
7.1 Introduction
7.2 High Concentrated Photovoltaic (HCPV)
7.3 Low Concentrated Photovoltaic (LCPV)
8 Global Concentrated Photovoltaic (CPV) Market, By Application
8.1 Introduction
8.2 Commercial
8.3 Utilities
9 Global Concentrated Photovoltaic (CPV) Market, By Region
9.1 Introduction
9.2 Asia Pacific
9.2.1 China
9.2.2 Taiwan
9.2.3 Australia
9.2.4 Rest of Asia Pacific
9.3 Americas
9.3.1 U.S.
9.3.2 Mexico
9.3.3 Rest of Americas
9.4 Europe
9.4.1 Spain
9.4.2 Italy
9.4.3 France
9.4.4 Portugal
9.4.5 Rest of Europe
9.5 Middle East & Africa
9.5.1 Africa
9.5.2 Middle East
10 Competitive Landscape
10.1 Competitive Landscape
11 Company Profiles
11.1 Sumitomo Electric Industries Ltd.
11.1.1 Company Overview
11.1.2 Financials
11.1.3 Products
11.1.4 Strategy
11.1.5 Key Developments
11.2 Radical Sun Systems, Inc.
11.2.1 Company Overview
11.2.2 Financials
11.2.3 Products
11.2.4 Strategy
11.2.5 Key Developments
11.3 SolAero Technologies Corp.
11.3.1 Company Overview
11.3.2 Financials
11.3.3 Products
11.3.4 Strategy
11.3.5 Key Developments
11.4 Arzon Solar, LLC.
11.4.1 Company Overview
11.4.2 Financials
11.4.3 Products
11.4.4 Strategy
11.4.5 Key Developments
11.5 Cool Earth Solar
11.5.1 Company Overview
11.5.2 Financials
11.5.3 Products
11.5.4 Strategy
11.5.5 Key Developments
11.6 ARIMA Group
11.6.1 Company Overview
11.6.2 Financials
11.6.3 Products
11.6.4 Strategy
11.6.5 Key Developments
11.7 Suncore Photovoltaic Technology Company Limited
11.7.1 Company Overview
11.7.2 Financials
11.7.3 Products
11.7.4 Strategy
11.7.5 Key Developments
11.8 Guangdong Redsolar Photovoltaic Technology Co.
11.8.1 Company Overview
11.8.2 Financials
11.8.3 Products
11.8.4 Strategy
11.8.5 Key Developments
11.9 Saint-Augustin Canada Electric Inc.
11.9.1 Company Overview
11.9.2 Financials
11.9.3 Products
11.9.4 Strategy
11.9.5 Key Developments
11.1 Sanan Optoelectronics Technology Co., Ltd
11.10.1 Company Overview
11.10.2 Financials
11.10.3 Products
11.10.4 Strategy
11.10.5 Key Developments
11.11 Suntrix Company Ltd
11.11.1 Company Overview
11.11.2 Financials
11.11.3 Products
11.11.4 Strategy
11.11.5 Key Developments
11.12 Macsun Solar Energy Technology Co.,Limited
11.12.1 Company Overview
11.12.2 Financials
11.12.3 Products
11.12.4 Strategy
11.12.5 Key Developments
11.13 Morgan Solar Inc.
11.13.1 Company Overview
11.13.2 Financials
11.13.3 Products
11.13.4 Strategy
11.13.5 Key Developments
12 CPV Solar Manufacturing Cost Analysis
12.1 CPV Solar Key Raw Materials Analysis
12.1.1 Key Raw Materials
12.1.2 Price Trend of Key Raw Materials
12.1.3 Key Supplier of Raw Materials
12.1.4 Raw Material Concentration Ratio
12.2 Manufacturing Plants
12.2.1 List of Manufacturing Plants
12.2.2 Proportion of manufacturing cost structure
12.3 Labor Cost
13 Marketing Strategy Analysis
13.1 Marketing Channel
13.1.1 Direct Marketing
13.1.2 Indirect Marketing
13.1.3 Marketing Channel Development Trend
13.2 Market Positioning
13.2.1 Pricing Strategy
13.2.2 Brand Strategy
14 Conclusion
14.1 Conclusion
15 Appendix
15.1 References
1 Executive Summary
2 Market Introduction
2.1 Definition
2.2 Scope of the Study
2.3 List of Assumptions
2.4 Market Structure
3 Research Methodology
3.1 Research Process
3.2 Primary Research
3.3 Secondary Research
3.4 Market Size Estimation
3.5 Forecast Model
4 Market Dynamics
4.1 Introduction
4.2 Drivers
4.2.1 Growing Solar Systems Installation
4.2.2 CPV is Highly Efficient in Sun-Rich Regions
4.3 Restraint
4.3.1 Downfall in Global CPV installation since last 5 years
4.4 Opportunity
4.4.1 Focus on CPV Simulation Software
4.5 Challenge
4.5.1 CPV Tracking System Synchronization
5 Market Factor Analysis
5.1 Porter’s Five Forces Analysis
5.1.1 Threat of new entrants
5.1.2 Bargaining power of suppliers
5.1.3 Threat of substitutes
5.1.4 Bargaining power of buyers
5.1.5 Rivalry
5.2 Supply Chain Analysis
6 Global Concentrated Photovoltaic (CPV) Market: Industry Overview
6.1 Overview
6.2 Concentrated Photovoltaic (CPV) Installed Capacity, 2012-2023 (MW)
6.3 Concentrated Photovoltaic (CPV) Installed Capacity, 2012-2016 (MW) (Historical)
6.4 Concentrated Photovoltaic (CPV) Installed Capacity, 2017-2023 (MW) (Forecast)
6.5 Concentrated Photovoltaic (CPV) Installed Capacity, By Major Country, 2016 (MW)
7 Global Concentrated Photovoltaic (CPV) Market, By Type
7.1 Introduction
7.2 High Concentrated Photovoltaic (HCPV)
7.3 Low Concentrated Photovoltaic (LCPV)
8 Global Concentrated Photovoltaic (CPV) Market, By Application
8.1 Introduction
8.2 Commercial
8.3 Utilities
9 Global Concentrated Photovoltaic (CPV) Market, By Region
9.1 Introduction
9.2 Asia Pacific
9.2.1 China
9.2.2 Taiwan
9.2.3 Australia
9.2.4 Rest of Asia Pacific
9.3 Americas
9.3.1 U.S.
9.3.2 Mexico
9.3.3 Rest of Americas
9.4 Europe
9.4.1 Spain
9.4.2 Italy
9.4.3 France
9.4.4 Portugal
9.4.5 Rest of Europe
9.5 Middle East & Africa
9.5.1 Africa
9.5.2 Middle East
10 Competitive Landscape
10.1 Competitive Landscape
11 Company Profiles
11.1 Sumitomo Electric Industries Ltd.
11.1.1 Company Overview
11.1.2 Financials
11.1.3 Products
11.1.4 Strategy
11.1.5 Key Developments
11.2 Radical Sun Systems, Inc.
11.2.1 Company Overview
11.2.2 Financials
11.2.3 Products
11.2.4 Strategy
11.2.5 Key Developments
11.3 SolAero Technologies Corp.
11.3.1 Company Overview
11.3.2 Financials
11.3.3 Products
11.3.4 Strategy
11.3.5 Key Developments
11.4 Arzon Solar, LLC.
11.4.1 Company Overview
11.4.2 Financials
11.4.3 Products
11.4.4 Strategy
11.4.5 Key Developments
11.5 Cool Earth Solar
11.5.1 Company Overview
11.5.2 Financials
11.5.3 Products
11.5.4 Strategy
11.5.5 Key Developments
11.6 ARIMA Group
11.6.1 Company Overview
11.6.2 Financials
11.6.3 Products
11.6.4 Strategy
11.6.5 Key Developments
11.7 Suncore Photovoltaic Technology Company Limited
11.7.1 Company Overview
11.7.2 Financials
11.7.3 Products
11.7.4 Strategy
11.7.5 Key Developments
11.8 Guangdong Redsolar Photovoltaic Technology Co.
11.8.1 Company Overview
11.8.2 Financials
11.8.3 Products
11.8.4 Strategy
11.8.5 Key Developments
11.9 Saint-Augustin Canada Electric Inc.
11.9.1 Company Overview
11.9.2 Financials
11.9.3 Products
11.9.4 Strategy
11.9.5 Key Developments
11.1 Sanan Optoelectronics Technology Co., Ltd
11.10.1 Company Overview
11.10.2 Financials
11.10.3 Products
11.10.4 Strategy
11.10.5 Key Developments
11.11 Suntrix Company Ltd
11.11.1 Company Overview
11.11.2 Financials
11.11.3 Products
11.11.4 Strategy
11.11.5 Key Developments
11.12 Macsun Solar Energy Technology Co.,Limited
11.12.1 Company Overview
11.12.2 Financials
11.12.3 Products
11.12.4 Strategy
11.12.5 Key Developments
11.13 Morgan Solar Inc.
11.13.1 Company Overview
11.13.2 Financials
11.13.3 Products
11.13.4 Strategy
11.13.5 Key Developments
12 CPV Solar Manufacturing Cost Analysis
12.1 CPV Solar Key Raw Materials Analysis
12.1.1 Key Raw Materials
12.1.2 Price Trend of Key Raw Materials
12.1.3 Key Supplier of Raw Materials
12.1.4 Raw Material Concentration Ratio
12.2 Manufacturing Plants
12.2.1 List of Manufacturing Plants
12.2.2 Proportion of manufacturing cost structure
12.3 Labor Cost
13 Marketing Strategy Analysis
13.1 Marketing Channel
13.1.1 Direct Marketing
13.1.2 Indirect Marketing
13.1.3 Marketing Channel Development Trend
13.2 Market Positioning
13.2.1 Pricing Strategy
13.2.2 Brand Strategy
14 Conclusion
14.1 Conclusion
15 Appendix
15.1 References
1 Executive Summary
2 Market Introduction
2.1 Definition
2.2 Scope of the Study
2.3 List of Assumptions
2.4 Market Structure
3 Research Methodology
3.1 Research Process
3.2 Primary Research
3.3 Secondary Research
3.4 Market Size Estimation
3.5 Forecast Model
4 Market Dynamics
4.1 Introduction
4.2 Drivers
4.2.1 Growing Solar Systems Installation
4.2.2 CPV is Highly Efficient in Sun-Rich Regions
4.3 Restraint
4.3.1 Downfall in Global CPV installation since last 5 years
4.4 Opportunity
4.4.1 Focus on CPV Simulation Software
4.5 Challenge
4.5.1 CPV Tracking System Synchronization
5 Market Factor Analysis
5.1 Porter’s Five Forces Analysis
5.1.1 Threat of new entrants
5.1.2 Bargaining power of suppliers
5.1.3 Threat of substitutes
5.1.4 Bargaining power of buyers
5.1.5 Rivalry
5.2 Supply Chain Analysis
6 Global Concentrated Photovoltaic (CPV) Market: Industry Overview
6.1 Overview
6.2 Concentrated Photovoltaic (CPV) Installed Capacity, 2012-2023 (MW)
6.3 Concentrated Photovoltaic (CPV) Installed Capacity, 2012-2016 (MW) (Historical)
6.4 Concentrated Photovoltaic (CPV) Installed Capacity, 2017-2023 (MW) (Forecast)
6.5 Concentrated Photovoltaic (CPV) Installed Capacity, By Major Country, 2016 (MW)
7 Global Concentrated Photovoltaic (CPV) Market, By Type
7.1 Introduction
7.2 High Concentrated Photovoltaic (HCPV)
7.3 Low Concentrated Photovoltaic (LCPV)
8 Global Concentrated Photovoltaic (CPV) Market, By Application
8.1 Introduction
8.2 Commercial
8.3 Utilities
9 Global Concentrated Photovoltaic (CPV) Market, By Region
9.1 Introduction
9.2 Asia Pacific
9.2.1 China
9.2.2 Taiwan
9.2.3 Australia
9.2.4 Rest of Asia Pacific
9.3 Americas
9.3.1 U.S.
9.3.2 Mexico
9.3.3 Rest of Americas
9.4 Europe
9.4.1 Spain
9.4.2 Italy
9.4.3 France
9.4.4 Portugal
9.4.5 Rest of Europe
9.5 Middle East & Africa
9.5.1 Africa
9.5.2 Middle East
10 Competitive Landscape
10.1 Competitive Landscape
11 Company Profiles
11.1 Sumitomo Electric Industries Ltd.
11.1.1 Company Overview
11.1.2 Financials
11.1.3 Products
11.1.4 Strategy
11.1.5 Key Developments
11.2 Radical Sun Systems, Inc.
11.2.1 Company Overview
11.2.2 Financials
11.2.3 Products
11.2.4 Strategy
11.2.5 Key Developments
11.3 SolAero Technologies Corp.
11.3.1 Company Overview
11.3.2 Financials
11.3.3 Products
11.3.4 Strategy
11.3.5 Key Developments
11.4 Arzon Solar, LLC.
11.4.1 Company Overview
11.4.2 Financials
11.4.3 Products
11.4.4 Strategy
11.4.5 Key Developments
11.5 Cool Earth Solar
11.5.1 Company Overview
11.5.2 Financials
11.5.3 Products
11.5.4 Strategy
11.5.5 Key Developments
11.6 ARIMA Group
11.6.1 Company Overview
11.6.2 Financials
11.6.3 Products
11.6.4 Strategy
11.6.5 Key Developments
11.7 Suncore Photovoltaic Technology Company Limited
11.7.1 Company Overview
11.7.2 Financials
11.7.3 Products
11.7.4 Strategy
11.7.5 Key Developments
11.8 Guangdong Redsolar Photovoltaic Technology Co.
11.8.1 Company Overview
11.8.2 Financials
11.8.3 Products
11.8.4 Strategy
11.8.5 Key Developments
11.9 Saint-Augustin Canada Electric Inc.
11.9.1 Company Overview
11.9.2 Financials
11.9.3 Products
11.9.4 Strategy
11.9.5 Key Developments
11.1 Sanan Optoelectronics Technology Co., Ltd
11.10.1 Company Overview
11.10.2 Financials
11.10.3 Products
11.10.4 Strategy
11.10.5 Key Developments
11.11 Suntrix Company Ltd
11.11.1 Company Overview
11.11.2 Financials
11.11.3 Products
11.11.4 Strategy
11.11.5 Key Developments
11.12 Macsun Solar Energy Technology Co.,Limited
11.12.1 Company Overview
11.12.2 Financials
11.12.3 Products
11.12.4 Strategy
11.12.5 Key Developments
11.13 Morgan Solar Inc.
11.13.1 Company Overview
11.13.2 Financials
11.13.3 Products
11.13.4 Strategy
11.13.5 Key Developments
12 CPV Solar Manufacturing Cost Analysis
12.1 CPV Solar Key Raw Materials Analysis
12.1.1 Key Raw Materials
12.1.2 Price Trend of Key Raw Materials
12.1.3 Key Supplier of Raw Materials
12.1.4 Raw Material Concentration Ratio
12.2 Manufacturing Plants
12.2.1 List of Manufacturing Plants
12.2.2 Proportion of manufacturing cost structure
12.3 Labor Cost
13 Marketing Strategy Analysis
13.1 Marketing Channel
13.1.1 Direct Marketing
13.1.2 Indirect Marketing
13.1.3 Marketing Channel Development Trend
13.2 Market Positioning
13.2.1 Pricing Strategy
13.2.2 Brand Strategy
14 Conclusion
14.1 Conclusion
15 Appendix
15.1 References

The post Global Concentrated Photovoltaic (CPV) Market Research Report – Forecast To 2023 first appeared on CRI Report.