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POWER INVERTER MARKET: GLOBAL INDUSTRY TRENDS, SHARE, SIZE, GROWTH, OPPORTUNITY AND FORECAST 2019-2024

Energy & Mining Published by: IMARC GROUP Market: Global
116 pages Published: 04-08-2019

Power inverter is a device that converts direct current (DC) from a battery, solar panel or fuel cell into the conventional alternating current (AC). This alternating current is used to run and operate numerous types of household appliances and lights. As power inverter is a reliable and economic alternate source of electricity, it currently has a diverse range of applications. IMARC Group’s latest report titled, “Power Inverter Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2019-2024”, finds that the global power inverter market reached a value of US$ 66.6 Billion in 2018, growing at a CAGR of 6.4% during 2011-2018.

 

The market is currently being driven by a number of favourable factors. Increasing urbanization and electrification rates have led to an increase in the demand for power inverters which are used as an alternate backup power solution in case of emergencies. As a large part of the population is highly dependent upon electronic gadgets and appliances such as laptops, television sets, refrigerators and air conditioners, the need for an uninterrupted power supply has resulted in the growth of the market. Further, the market is also being stimulated by technological innovations which have resulted in portable power inverters that can be used to charge mobile phones and tablets while travelling. According to the report, the market is further expected to reach a value of US$ 93.7 Billion by 2024.

 

The report has segmented the global power inverter market on the basis of type covering <5KW, 5-95 KW, 100-495 KW and >500 KW. On the basis of application, the report includes motor drives, UPS, rail traction, wind turbines, EVs/HEVs and solar PVs. Among these, motor drives account for the majority of the market share. Based on region, the report has segmented the market as Asia-Pacific, Europe, North America, Latin America, and Middle East and Africa. Currently, Asia-Pacific represents the largest market for power inverters. The report has further analysed the competitive landscape of the market and provides the profiles of the key players operating in it. Some of the major players include SMA Solar Technology, Omron, ABB, Tabuchi and TMEIC.

 

This report provides a deep insight into the global power inverter industry covering all its essential aspects. This ranges from macro overview of the market to micro details of the industry performance, recent trends, key market drivers and challenges, SWOT analysis, Porter’s five forces analysis, value chain analysis, etc. The report also provides a comprehensive analysis for setting up a power inverter manufacturing plant. The study analyses the processing and manufacturing requirements, project cost, project funding, project economics, expected returns on investment, profit margins, etc. This report is a must-read for entrepreneurs, investors, researchers, consultants, business strategists, and all those who have any kind of stake or are planning to foray into the global power inverter industry in any manner.

 

Key Questions Answered in This Report:

  1.  
  2. How has the global power inverter market performed so far and how will it perform in the coming years?
  3. What are the key regions in the global power inverter market?
  4. What are the key applications in the global power inverter market?
  5. What are the key product types in the global power inverter market?
  6. What are the various stages in the value chain of the global power inverter industry?
  7. What are the key driving factors and challenges in the global power inverter industry?
  8. What is the structure of the global power inverter industry and who are the key players?
  9. What is the degree of competition in the global power inverter industry?
  10. What are the profit margins in the global power inverter industry?
  11. What are the key requirements for setting up a global power inverter manufacturing plant?
  12. How is power inverter manufactured?
  13. What are the various unit operations involved in a power inverter manufacturing plant?
  14. What is the total size of land required for setting up a power inverter manufacturing plant?
  15. What are the machinery requirements for setting up a power inverter manufacturing plant?
  16. What are the raw material requirements for setting up a power inverter manufacturing plant?
  17. What are the packaging requirements for power inverter?
  18. What are the transportation requirements for power inverter?
  19. What are the utility requirements for setting up a power inverter manufacturing plant?
  20. What are the manpower requirements for setting up a power inverter manufacturing plant?
  21. What are the infrastructure costs for setting up a power inverter manufacturing plant?
  22. What are the capital costs for setting up a power inverter manufacturing plant?
  23. What are the operating costs for setting up a power inverter manufacturing plant?
  24. What will be the income and expenditures for a power inverter manufacturing plant?
  25. What is the time required to break-even?
1    Preface
2    Scope and Methodology

    2.1     Objectives of the study
    2.2     Stakeholders
    2.3     Data Sources
        2.3.1     Primary Sources
        2.3.2     Secondary Sources
    2.4     Market Estimation
        2.4.1     Bottom-Up Approach
        2.4.2     Top-Down Approach
    2.5     Forecasting Methodology
3    Executive Summary
4    Introduction

    4.1    Overview
    4.2    Key Industry Trends
5    Global Power Inverter Market
    5.1    Market Overview
    5.2    Market Performance
       5.2.1    Volume Trends
       5.2.2    Value Trends
    5.3    Price Analysis
        5.3.1    Key Price Indicators
        5.3.2    Price Structure
        5.3.3    Margin Analysis
    5.4    Market Breakup by Region
    5.5    Market Breakup by Type
    5.6    Market Breakup by Application
    5.7    Market Forecast
    5.8    SWOT Analysis
        5.8.1    Overview
        5.8.2    Strengths
        5.8.3    Weaknesses
        5.8.4    Opportunities
        5.8.5    Threats
   5.9    Value Chain Analysis
        5.9.1    Overview
        5.9.2    Research and Development
        5.9.3    Raw Material Procurement
        5.9.4    Manufacturing
        5.9.5    Marketing
        5.9.6    Distribution
        5.9.7    End-Use
    5.10    Porters Five Forces Analysis
        5.10.1    Overview
        5.10.2    Bargaining Power of Buyers
        5.10.3    Bargaining Power of Suppliers
        5.10.4    Degree of Rivalry
        5.10.5    Threat of New Entrants
        5.10.6    Threat of Substitutes
    5.11    Key Market Drivers and Challenges
6    Market by Key Regions
    6.1        Asia Pacific
        6.1.1 Market Trends
        6.1.2 Market Forecast
    6.2        Europe
        6.2.1 Market Trends
        6.2.2 Market Forecast
    6.3        North America
        6.3.1 Market Trends
        6.3.2 Market Forecast
    6.4        Latin America
        6.4.1 Market Trends
        6.4.2 Market Forecast
    6.5        Middle East and Africa
        6.5.1 Market Trends
        6.5.2 Market Forecast
7    Market Breakup by Type
    7.1        <5KW
        7.1.1 Market Trends
        7.1.2 Market Forecast
    7.2        5KW to 95KW
        7.2.1 Market Trends
        7.2.2 Market Forecast
    7.3        100KW to 495KW
        7.3.1 Market Trends
        7.3.2 Market Forecast
    7.4        Above 500KW
        7.4.1 Market Trends
        7.4.2 Market Forecast
8    Market Breakup by Application
    8.1        Motor Drives
        8.1.1 Market Trends
        8.1.2 Market Forecast
    8.2        UPS
        8.2.1 Market Trends
        8.2.2 Market Forecast
    8.3        Rail Traction
        8.3.1 Market Trends
        8.3.2 Market Forecast
    8.4        Wind Turbines   
        8.4.1 Market Trends
        8.4.2 Market Forecast
    8.5        EVs/HEVs
        8.5.1 Market Trends
        8.5.2 Market Forecast
    8.6        Solar PVs
        8.6.1 Market Trends
        8.6.2 Market Forecast
    8.7        Others
        8.7.1 Market Trends
        8.7.2 Market Forecast
9        Competitive Landscape
    9.1        Competitive Structure
    9.2        Key Players
10    Power Inverter Manufacturing Process
    10.1       Product Overview
    10.2       Detailed Process Flow
    10.3       Various Types of Units Operations Involved
    10.4       Mass Balance and Raw Material Requirements
11     Project Details, Requirements and Costs Involved
    11.1    Land Requirements and Expenditures
    11.2    Construction Requirements and Expenditures
    11.3    Plant Machinery
    11.4    Machinery Pictures
    11.5    Raw Material Requirements and Expenditures
    11.6    Raw Material Pictures
    11.7    Packaging Requirements and Expenditures
    11.8    Transportation Requirements and Expenditures
    11.9    Utility Requirements and Expenditures
    11.10    Manpower Requirements and Expenditures
    11.11    Other Capital Investments
12    Loans and Financial Assistance
13    Project Economics

    13.1    Capital Cost of the Project
    13.2    Techno-Economic Parameters
    13.3    Product Pricing and Margins Across Various Levels of the Supply Chain
    13.4    Income Projections
    13.5    Expenditure Projections
    13.6    Taxation and Depreciation
    13.7    Financial Analysis
    13.8    Profit Analysis
14    Key Player Profiles

Market Breakup by Regions

  1. Asia Pacific
  2. Europe
  3. North America
  4. Latin America
  5. Middle East and Africa

Market Breakup by Type

  1. <5KW
  2. 5KW to 95KW
  3. 100KW to 495KW
  4. Above 500KW 

Market Breakup by Application

  1. Motor Drives
  2. UPS
  3. Rail Traction
  4. Wind Turbines    
  5. EVs/HEVs
  6. Solar PVs
  7. Others
  •  
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ENHANCED OIL RECOVERY MARKET: GLOBAL INDUSTRY TRENDS, SHARE, SIZE, GROWTH, OPPORTUNITY AND FORECAST 2019-2024

Energy & Mining Published by: IMARC GROUP Market: Global
102 pages Published: 04-08-2019

The global enhanced oil recovery (EOR) market is currently witnessing robust growth. Enhanced oil recovery (EOR), also known as tertiary recovery, refers to the process through which otherwise immobile residual oil is mobilized either physically, chemically or thermally. As primary and secondary oil recovery methods can leave up to 75% of the oil in the reservoir, oil extracting companies have started relying on EOR or tertiary oil recovery methods. Thermal recovery, gas injection and chemical injection are the most commonly used EOR techniques across the globe. Although most of the EOR technologies are currently used offshore, oil companies are developing technologies to expand onshore EOR methods. Looking forward, IMARC Group expects the market to grow at a CAGR of 16% during 2019-2024.

 

Market Drivers:

 

Over the past few years, the rapid depletion of fossil fuels has contributed to the increasing application of EOR technologies in the oil and gas industry. The rising demand for oil has further added to the growing demand for EOR worldwide. In addition, several governments around the world are taking initiatives for utilizing advanced technologies for oil extraction to achieve higher profits from existing oil and gas fields. For example, countries like China and India are offering financial incentives to attract multinational companies to invest in the enhanced oil recovery market. In line with this, various companies all over the world are engaging in R&D activities to improve oil recovery. For instance, British Petroleum has developed advanced techniques that can extract oil using thermally activated microscopic particles which expand deep into the reservoir.

 

Report Coverage:

 

Historical, Current and Future Market Trends

 

Breakup by Technology:

 

Thermal-Enhanced Oil Recovery 

Gas-Enhanced Oil Recovery

Chemical-Enhanced Oil Recovery

Others

 

Thermal-enhanced oil recovery currently accounts for the largest share.

 

Breakup by Application:

 

Onshore

Offshore

 

Onshore currently accounts for the largest share.

 

Regional Insights:

 

North America

Europe

Asia Pacific

Middle East and Africa

Latin America

 

Competitive Landscape:

 

The report has also analysed the competitive landscape of the market with some of the key players being Basf Se, Halliburton Corporation, Royal Dutch Shell Plc, Schlumberger Ltd., Chevron Phillips Chemical Corporation, Fmc Technologies Inc., NALCO Company, Praxair Technology, Inc., Secure Energy Services Inc., Xytel Corporation, Praxair Technology, Inc., Statoil ASA, BP Plc, China Petroleum & Chemical Corporation, Oil and Natural Gas Corporation Ltd, ExxonMobil Corporation, ConocoPhillips, Petroleo Brasileiro S.A., Lukoil Oil Co., etc.

 

Key Questions Answered in This Report:

 

  1. How has the global enhanced oil recovery market performed so far and how will it perform in the coming years?
  2. What are the key regional markets in the global enhanced oil recovery industry?
  3. What is the breakup of the global enhanced oil recovery market based on the technology?
  4. What is the breakup of the global enhanced oil recovery market based on the application?
  5. What are the various stages in the value chain of the global enhanced oil recovery market?
  6. What are the key driving factors and challenges in the global enhanced oil recovery market?
  7. What is the structure of the global enhanced oil recovery market and who are the key players?
  8. What is the degree of competition in the global enhanced oil recovery market?
1    Preface
2    Scope and Methodology

    2.1    Objectives of the Study
    2.2    Stakeholders
    2.3    Data Sources
        2.3.1    Primary Sources
        2.3.2    Secondary Sources
    2.4    Market Estimation
        2.4.1    Bottom-Up Approach
        2.4.2    Top-Down Approach
    2.5    Forecasting Methodology
3    Executive Summary
4    Introduction

    4.1    Overview
    4.2    Key Industry Trends
5    Global Enhanced Oil Recovery Market
    5.1    Market Overview
    5.2    Market Performance
    5.3    Market Breakup by Technology
    5.4    Market Breakup by Application
    5.5    Market Breakup by Region
    5.6    Market Forecast
6    Market Breakup by Technology
    6.1    Thermal-Enhanced Oil Recovery
        6.1.1    Market Trends
        6.1.2    Market Forecast
    6.2    Gas-Enhanced Oil Recovery
        6.2.1    Market Trends
        6.2.2    Market Forecast
    6.3    Chemical-Enhanced Oil Recovery
        6.3.1    Market Trends
        6.3.2    Market Forecast
    6.4    Others
        6.4.1    Market Trends
        6.4.2    Market Forecast
7    Market Breakup by Application
    7.1    Onshore
        7.1.1    Market Trends
        7.1.2    Market Forecast
    7.2    Offshore
        7.2.1    Market Trends
        7.2.2    Market Forecast
8    Market Breakup by Region
    8.1    North America
        8.1.1    Market Trends
        8.1.2    Market Forecast
    8.2    Europea
        8.2.1    Market Trends
        8.2.2    Market Forecast
    8.3    Asia Pacific
        8.3.1    Market Trends
        8.3.2    Market Forecast
    8.4    Middle East and Africa
        8.4.1    Market Trends
        8.4.2    Market Forecast
    8.5    Latin America
        8.5.1    Market Trends
        8.5.2    Market Forecast
9    SWOT Analysis
    9.1    Overview
    9.2    Strengths
    9.3    Weaknesses
    9.4    Opportunities
    9.5    Threats
10    Value Chain Analysis
    10.1    Overview
    10.2    Research and Development
    10.3    Raw Material Procurement
    10.4    Manufacturing
    10.5    Marketing
    10.6    Distribution
    10.7    End-Use
11    Porters Five Forces Analysis
    11.1    Overview
    11.2    Bargaining Power of Buyers
    11.3    Bargaining Power of Suppliers
    11.4    Degree of Competition
    11.5    Threat of New Entrants
    11.6    Threat of Substitutes
12    Competitive Landscape
    12.1    Market Structure
    12.2    Key Players
    12.3    Profiles of Key Players
        12.3.1    Basf Se
        12.3.2    Halliburton Corporation
        12.3.3    Royal Dutch Shell Plc
        12.3.4    Schlumberger Ltd.
        12.3.5    Chevron Phillips Chemical Corporation
        12.3.6    Fmc Technologies Inc.
        12.3.7    NALCO Company
        12.3.8    Praxair Technology, Inc.
        12.3.9    Secure Energy Services Inc.
        12.3.10      Xytel Corporation
        12.3.11      Praxair Technology, Inc.
        12.3.12      Statoil ASA
        12.3.13      BP Plc   
        12.3.14      China Petroleum & Chemical Corporation  
        12.3.15      Oil and Natural Gas Corporation Ltd  
        12.3.16      ExxonMobil Corporation
        12.3.17      ConocoPhillips 
        12.3.18      Petroleo Brasileiro S.A.
        12.3.19      Lukoil Oil Co.   

Market Breakup by Technology

  1. Thermal-Enhanced Oil Recovery
  2. Gas-Enhanced Oil Recovery
  3. Chemical-Enhanced Oil Recovery
  4. Others

Market Breakup by Application

  1. Onshore
  2. Offshore

Market Breakup by Region

  1. North America
  2. Europea
  3. Asia Pacific
  4. Middle East and Africa
  5. Latin America
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AC DRIVES MARKET: GLOBAL INDUSTRY TRENDS, SHARE, SIZE, GROWTH, OPPORTUNITY AND FORECAST 2019-2024

Energy & Mining Published by: IMARC GROUP Market: Afghanistan
104 pages Published: 04-08-2019
  • Energy & Mining
  • IMARC GROUP
  • Afghanistan
  • 104 pages
  • Published: 04-08-2019

The global AC drives market reached a value of US$ 18.9 Billion in 2018. AC drives are used for regulating the velocity of electric motors and function by fluctuating the frequency, magnetic flux and voltage in the motor’s circuit. They are used to achieve effective control over the motor’s speed and reduce energy consumption. Owing to this, they are employed across the oil and gas, power generation, building automation, food and beverage, and metals and mining sectors. Looking forward, the market is further projected to reach a value of around US$ 26.8 Billion by 2024, registering a CAGR of around 6% during 2019-2024.

 

Market Drivers:

 

The low energy consumption of AC drives is one of the prime factors that is driving the growth in the market. They adopt energy saving techniques which avoid strain on natural resources and offer a greater return on investment and efficiency. The use of these devices also reduces disturbances in the power supply and lowers carbon dioxide emissions.

Rapid industrialization and urbanization have increased the demand for automated and motor-driven equipment, in turn, escalating the sales of AC drives worldwide. Additionally, improving standards of living have catalyzed the development of modern infrastructure which has further contributed to the growth of the market.

The low production cost of AC drives coupled with an increase in electricity prices has bolstered their sales. Since these drives consume a minimal amount of electricity, require less maintenance and are easy to use, they are being preferred by manufacturers across the globe for use in motor-driven equipment.

The increasing popularity of industrial Internet of Things (IoT), along with the usage of cloud computing, mobile communications and web technologies for controlling and maintaining these drives, is also expected to create a positive impact on the growth of the market.

 

IMARC Group’s latest report provides a deep insight into the global AC drives market covering all its essential aspects. This ranges from macro overview of the market to micro details of the industry performance, recent trends, key market drivers and challenges, SWOT analysis, Porter’s five forces analysis, value chain analysis, etc. This report is a must-read for entrepreneurs, investors, researchers, consultants, business strategists, and all those who have any kind of stake or are planning to foray into the global Ac drives market in any manner

 

Report Coverage:

 

Historical, Current and Future Market Trends

 

Breakup by Power Rating:

 

Low Power Drives (<40 kW) 

Medium Power Drives (41 kW – 200 kW)

High Power Drives (>200 kW)

 

Breakup by Voltage:

 

Low Voltage

Medium Voltage

 

Breakup by Application:

 

Pumps

Fans

Compressor

Conveyors

Extruders

Others

 

Breakup by End-Use:

 

Food and Beverage

Water and Wastewater

HVAC

Oil and Gas

Power

Metal Processing

Chemicals

Others

 

Breakup by Region:

 

North America

Europe

Asia Pacific

Middle East and Africa

Latin America

 

Competitive Landscape:

 

The report has also analysed the competitive landscape of the market with some of the key players being ABB Ltd, Danfoss Group, Schneider Electric Se, Siemens AG. Mitsubishi Electrical Corporation, Fuji Electric Co. Ltd., Emerson Electric Co., Hitachi Ltd, Parker Hannifin Corporation, Rockwell Automation,Inc., Toshiba International Corporation, WEG SA, Yaskawa Electric   Corporation, etc.

 

Key Questions Answered in This Report:

  1.  
  2. How has the global AC drives market performed so far and how will it perform in the coming years?
  3. What are the key regional markets in the global AC drives industry?
  4. What is the breakup of the global AC drives market on the basis of power rating?
  5. What is the breakup of the global AC drives market on the basis of voltage?
  6. What is the breakup of the global AC drives market on the basis of application?
  7. What is the breakup of the global AC drives market on the basis of end-use?
  8. What are the various stages in the value chain of the global AC drives market?
  9. What are the key driving factors and challenges in the global AC drives market?
  10. What is the structure of the global AC drives market and who are the key players?
  11. What is the degree of competition in the global AC drives market?
1    Preface
2    Scope and Methodology

    2.1    Objectives of the Study
    2.2    Stakeholders
    2.3    Data Sources
        2.3.1    Primary Sources
        2.3.2    Secondary Sources
    2.4    Market Estimation
        2.4.1    Bottom-Up Approach
        2.4.2    Top-Down Approach
    2.5    Forecasting Methodology
3    Executive Summary
4    Introduction

    4.1    Overview
    4.2    Key Industry Trends
5    Global AC Drives Market
    5.1    Market Overview
    5.2    Market Performance
    5.3    Market Breakup by Power Rating
    5.4    Market Breakup by Voltage
    5.5    Market Breakup by Application
    5.6    Market Breakup by End-Use
    5.7    Market Breakup by Region
    5.8    Market Forecast
6    Market Breakup by Power Rating
    6.1    Low Power Drives (<40 kW)
        6.1.1    Market Trends
        6.1.2    Market Forecast
    6.2    Medium Power Drives (41 kW – 200 kW)
        6.2.1    Market Trends
        6.2.2    Market Forecast
    6.3    High Power Drives (>200 kW)
        6.3.1    Market Trends
        6.3.2    Market Forecast
7    Market Breakup by Voltage
    7.1    Low Voltage
        7.1.1    Market Trends
        7.1.2    Market Forecast
    7.2    Medium Voltage 
        7.2.1    Market Trends
        7.2.2    Market Forecast
8    Market Breakup by Application
    8.1    Pumps
        8.1.1    Market Trends
        8.1.2    Market Forecast
    8.2    Fans
        8.2.1    Market Trends
        8.2.2    Market Forecast
    8.3    Compressor
        8.3.1    Market Trends
        8.3.2    Market Forecast
    8.4    Conveyors
        8.4.1    Market Trends
        8.4.2    Market Forecast
    8.5    Extruders
        8.5.1    Market Trends
        8.5.2    Market Forecast
    8.6    Others
        8.6.1    Market Trends
        8.6.2    Market Forecast
9    Market Breakup by End-Use
    9.1    Food and Beverage
        9.1.1    Market Trends
        9.1.2    Market Forecast
    9.2    Water and Wastewater 
        9.2.1    Market Trends
        9.2.2    Market Forecast
    9.3    HVAC
        9.3.1    Market Trends
        9.3.2    Market Forecast
    9.4    Oil and Gas
        9.4.1    Market Trends
        9.4.2    Market Forecast
    9.5    Power
        9.5.1    Market Trends
        9.5.2    Market Forecast
    9.6    Metal Processing 
        9.6.1    Market Trends
        9.6.2    Market Forecast
    9.7    Chemicals
        9.7.1    Market Trends
        9.7.2    Market Forecast
    9.8    Others
        9.8.1    Market Trends
        9.8.2    Market Forecast
10    Market Breakup by Region
    10.1    North America
        10.1.1    Market Trends
        10.1.2    Market Forecast
    10.2    Europe
        10.2.1    Market Trends
        10.2.2    Market Forecast
    10.3    Asia Pacific
        10.3.1    Market Trends
        10.3.2    Market Forecast
    10.4    Middle East and Africa
        10.4.1    Market Trends
        10.4.2    Market Forecast
    10.5    Latin America
        10.5.1    Market Trends
        10.5.2    Market Forecast
11    Global AC Drives Industry: SWOT Analysis
    11.1    Overview
    11.2    Strengths
    11.3    Weaknesses
    11.4    Opportunities
    11.5    Threats
12    Value Chain Analysis
13    Porters Five Forces Analysis

    13.1     Overview
    13.2     Bargaining Power of Buyers
    13.3     Bargaining Power of Suppliers
    13.4     Degree of Competition
    13.5     Threat of New Entrants
    13.6     Threat of Substitutes
14    Price Analysis
15    Competitive Landscape

    15.1    Market Structure
    15.2    Key Players
    15.3    Profiles of Key Players
        15.3.1    ABB Ltd   
        15.3.2    Danfoss Group 
        15.3.3    Schneider Electric Se 
        15.3.4    Siemens AG 
        15.3.5    Mitsubishi Electrical Corporation
        15.3.6    Fuji Electric Co. Ltd. 
        15.3.7    Emerson Electric Co.
        15.3.8    Hitachi Ltd
        15.3.9    Parker Hannifin Corporation
        15.3.10      Rockwell Automation,Inc.
        15.3.11      Toshiba International Corporation 
        15.3.12      WEG SA 
        15.3.13      Yaskawa Electric Corporation 

Market Breakup by Power Rating 

  1. Low Power Drives (<40 kW) 
  2. Medium Power Drives (41 kW – 200 kW) 
  3. High Power Drives (>200 kW) 

Market Breakup by Voltage 

  1. Low Voltage 
  2. Medium Voltage  

Market Breakup by Application 

  1. Pumps 
  2. Fans 
  3. Compressor
  4. Conveyors 
  5. Extruders 
  6. Others

Market Breakup by End-Use 

  1. Food and Beverage 
  2. Water and Wastewater  
  3. HVAC
  4. Oil and Gas
  5. Power 
  6. Metal Processing  
  7. Chemicals
  8. Others 

Market Breakup by Region 

  1. North America 
  2. Europe 
  3. Asia Pacific 
  4. Middle East and Africa
  5. Latin America
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SOLAR PV INVERTER MARKET: GLOBAL INDUSTRY TRENDS, SHARE, SIZE, GROWTH, OPPORTUNITY AND FORECAST 2019-2024

Energy & Mining Published by: IMARC GROUP Market: Global
128 pages Published: 02-11-2019

The global solar PV inverter market was worth US$ 6.7 Billion in 2018. A solar inverter is one of the most essential elements of a solar electric power plant. Often considered as the brain of the system, its basic function is to convert direct current (DC) from solar panels to alternating current (AC). Apart from this, solar inverters help in maximizing electricity production by constantly varying the resistance (load) as well as ensuring compliance with regulations about feeding electricity into the grid. Some of the other capabilities of these inverters include optimizing power, managing temperature, and controlling and monitoring all parameters, yields, and operational data of the power plant. At present, solar PV inverters majorly find applications in the utilities and industrial sectors.

 

Global Solar PV Inverter Market Trends:

 

The global demand of solar inverters has been rising robustly over the last few years. A key factor catalyzing this demand is the increasing environmental concerns regarding greenhouse emissions and the importance of solar and other renewable energy sources to reduce these emissions. Morever, the increasing cost of fossil fuels is also making solar power a more economical energy source.  Additionally, the prices of solar inverters have also declined in recent years making them more affordable to the general population. This has resulted in a strong growth in the installation of solar electric systems across both developed and developing regions across the globe. Other factors driving this market include the need for rural electrification, technological advancements, increasing government support, rising investments in renewable energy, etc. Looking forward, the global solar PV inverter market value is projected to exceed US$ 9.1 Billion by 2024, exhibiting a CAGR of around 5% during 2019-2024.

 

Market Summary:

 

Based on the technology, the market has been segmented into central inverter, string inverter, microinverter and others. Central inverters currently represent the biggest segment.

On the basis of application, the market has been segregated into utility scale, residential scale, small commercial scale, large commercial scale and industrial scale.

Based on the voltage, the market has been segmented into < 1,000 V, 1,000 – 1,499 V and > 1,500 V.

Region-wise, Asia Pacific exhibits a clear dominance in the global solar PV inverter market. Other major regions include Europe, North America, Middle   East and Africa and Latin America.

The competitive landscape of the market has also been examined with some of the key players being ABB Ltd, Schneider Electric SE, Siemens AG, Mitsubishi Electric Corporation, Omron Corporation, General Electric Company, SMA Solar Technology AG, Delta Energy Systems Inc., Enphase Energy Inc., SolarEdge Technologies Inc., Huawei Technologies Co. Ltd, Kstar New Energy Co. Ltd, Sineng Electric Co. Ltd, Sungrow Power Supply Co Ltd, Tabuchi Electric Co. Ltd, TBEA Sunoasis Co. Ltd and Toshiba Corporation.

 

Key Questions Answered in This Report:

 

  1. How has the global solar PV inverter market performed so far and how will it perform in the coming years?
  2. What are the key regional markets in the global solar PV inverter industry?
  3. What is the breakup of the global solar PV inverter market on the basis of technology?
  1. What is the breakup of the global solar PV inverter market on the basis of voltage?
  2. What is the breakup of the global solar PV inverter market on the basis of application?
  3. What are the various stages in the value chain of the global solar PV inverter market?
  4. What are the key driving factors and challenges in the global solar PV inverter market?
  5. What is the structure of the global solar PV inverter market and who are the key players?
  6. What is the degree of competition in the global solar PV inverter market?
  7. How are solar PV inverters manufactured?
1. Preface
2. Scope and Methodology

    2.1    Objectives of the Study
    2.2    Stakeholders
    2.3    Data Sources
        2.3.1    Primary Sources
        2.3.2    Secondary Sources
    2.4    Market Estimation
        2.4.1    Bottom-Up Approach
        2.4.2    Top-Down Approach
    2.5    Forecasting Methodology
3 .Executive Summary
4. Introduction

    4.1    Overview
    4.2    Properties
    4.3    Key Industry Trends
5. Global Solar PV Inverter Market
    5.1    Market Overview
    5.2    Market Performance
    5.3    Market Breakup by Technology
    5.4    Market Breakup by Voltage
    5.5    Market Breakup by Application
    5.6    Market Breakup by Region
    5.7    Market Forecast
6. Market Breakup by Technology
    6.1    Central Inverters
        6.1.1    Market Trends
        6.1.2    Market Forecast
    6.2    String Inverters
        6.2.1    Market Trends
        6.2.2    Market Forecast
    6.3    Microinverters
        6.3.1    Market Trends
        6.3.2    Market Forecast
    6.4    Others
        6.4.1    Market Trends
        6.4.2    Market Forecast
7. Market Breakup by Voltage
    7.1    < 1,000 V
        7.1.1    Market Trends
        7.1.2    Market Forecast
    7.2    1,000 – 1,499 V
        7.2.1    Market Trends
        7.2.2    Market Forecast
    7.3    > 1,500 V
        7.3.1    Market Trends
        7.3.2    Market Forecast
8. Market Breakup by Application
    8.1    Utility Scale
        8.1.1    Market Trends
        8.1.2    Market Forecast
    8.2    Residential Scale
        8.2.1    Market Trends
        8.2.2    Market Forecast
    8.3    Small Commercial Scale
        8.3.1    Market Trends
        8.3.2    Market Forecast
    8.4    Large Commercial Scale
        8.4.1    Market Trends
        8.4.2    Market Forecast
    8.5    Industrial Scale
        8.5.1    Market Trends
        8.5.2    Market Forecast
9. Market Breakup by Region
    9.1    Asia Pacific
        9.1.1    Market Trends
        9.1.2    Market Forecast
    9.2    Europe
        9.2.1    Market Trends
        9.2.2    Market Forecast
    9.3    North America
        9.3.1    Market Trends
        9.3.2    Market Forecast
    9.4    Middle East and Africa
        9.4.1    Market Trends
        9.4.2    Market Forecast
    9.5    Latin America
        9.5.1    Market Trends
        9.5.2    Market Forecast
10. Global Solar PV Inverter Industry: SWOT Analysis
    10.1    Overview
    10.2    Strengths
    10.3    Weaknesses
    10.4    Opportunities
    10.5    Threats
11. Global Solar PV Inverter Industry: Value Chain Analysis
    11.1    Overview
    11.2    Research and Development
    11.3    Raw Material Procurement
    11.4    Manufacturing
    11.5    Marketing
    11.6    Distribution
    11.7    End-Use
12. Global Solar PV Inverter Industry: Porters Five Forces Analysis
    12.1     Overview
    12.2     Bargaining Power of Buyers
    12.3     Bargaining Power of Suppliers
    12.4     Degree of Competition
    12.5     Threat of New Entrants
    12.6     Threat of Substitutes
13. Global Solar PV Inverter Industry: Price Analysis
    13.1      Price Indicators
    13.2      Price Structure
    13.3      Margin Analysis
14. Solar PV Inverter Manufacturing Process
    14.1    Product Overview
    14.2    Raw Material Requirements
    14.3    Manufacturing Process
    14.4    Key Success and Risk Factors
15. Competitive Landscape
    15.1    Market Structure
    15.2    Key Players
    15.3    Profiles of Key Players
        15.3.1    ABB Ltd        
        15.3.2    Schneider Electric SE
        15.3.3    Siemens AG 
        15.3.4    Mitsubishi Electric Corporation 
        15.3.5    Omron Corporation
        15.3.6    General Electric Company
        15.3.7    SMA Solar Technology AG
        15.3.8    Delta Energy Systems Inc.
        15.3.9    Enphase Energy Inc.
        15.3.10      SolarEdge Technologies Inc.
        15.3.11      Huawei Technologies Co. Ltd
        15.3.12      Kstar New Energy Co. Ltd
        15.3.13      Sineng Electric Co. Ltd
        15.3.14      Sungrow Power Supply Co Ltd 
        15.3.15      Tabuchi Electric Co. Ltd 
        15.3.16      TBEA Sunoasis Co. Ltd  
         15.3.17    Toshiba Corporation

Market Breakup by Technology 

  1. Central Inverters
  2. String Inverters
  3. Microinverters
  4. Others

Market Breakup by Voltage 

  1. < 1,000 V 
  2. 1,000 – 1,499 V 
  3. > 1,500 V

Market Breakup by Application 

  1. Utility Scale 
  2. Residential Scale 
  3. Small Commercial Scale 
  4. Large Commercial Scale 
  5. Industrial Scale 

Market Breakup by Region 

  1. Asia Pacific 
  2. Europe 
  3. North America 
  4. Middle East and Africa
  5. Latin America
  •  
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AUTOMOTIVE LEAD-ACID BATTERY MARKET: GLOBAL INDUSTRY TRENDS, SHARE, SIZE, GROWTH, OPPORTUNITY AND FORECAST 2019-2024

Energy & Mining Published by: IMARC GROUP Market: Global
128 pages Published: 02-11-2019

The global automotive lead-acid battery market was worth US$ 12.5 Billion in 2018. Lead acid batteries are the oldest type of rechargeable batteries invented by Gaston Planté in 1859 and are used for the starting, lighting, and the ignition (SLI) process in the automobiles. These types of batteries use sponge lead (Pb) and lead peroxide (PbO2) plates immersed in sulfuric acid to convert chemical energy into electrical power. These batteries have been in the industry for 100 years and are still a popular source of energy storage. They are generally used in power stations and substations as they have high cell voltage and lower cost. In spite of having very low energy-to-weight ratio and a low energy-to-volume ratio, these batteries supply high surge currents which implies that their cells have a large power-to-weight ratio. This makes them highly compatible for motor vehicles in order to supply high current required by automobile starter motors. Apart from this, lead acid batteries also contribute in supplying voltage to various accessories in vehicles such as music systems, wipers, radio, air conditioners, charging plugs, etc.

 

The demand of automotive lead-acid batteries has a strong correlation with   the global automobile industry. The global automobile market has exhibited strong performance across both developed and emerging markets after a period of sluggish growth as a result of the recent global economic crisis. Moreover, a spontaneous rise in the use of electric vehicles and e-bikes has also catalyzed the demand of lead acid batteries. Characteristics such as high current delivery, resistance to corrosion and abrasion, tolerance to overcharging, low internal impedance, etc. make them appropriate to be used in electric vehicles. On a regional basis, the Asia Pacific region represented the biggest driver of automotive lead acid batteries accounting for the bulk of the total sales. Asia Pacific was followed by North America and Europe. Looking forward, the market for lead acid batteries is projected to exceed US$ 15 Billion by 2024, exhibiting a CAGR of 3.1% during 2019-2024.

 

Market Summary:

 

Based on the vehicle type, the market has been segmented into passenger cars, commercial vehicles, two-wheelers and HEV cars. Passenger cars   currently represent the biggest application.

Based on the product type, the market has been segmented into SLI batteries   and micro hybrid batteries.

Based on the type, the market has been segmented into flooded batteries, enhanced flooded batteries and VRLA batteries.

Based on the customer segment, the market has been segmented into OEM and replacement.

Region-wise, the market has been segmented into Asia Pacific, North America, Europe, Middle East and Africa, and Latin America. Amongst these, Asia Pacific is the biggest market, accounting for the majority of the global sales.

The competitive landscape of the market has also been examined with some of the key players being Johnson Controls Inc., Exide Technologies Inc., GS Yuasa Corporation, Reem Batteries & Power Appliances Co. Saoc, Enersys Inc., Saft Groupe S.A., Northstar Battery Company LLC., C&D Technologies, Inc., Robert Bosch GmbH, East Penn Manufacturing Company, Panasonic Corporation, Trojan Battery Company, Samsung Sdi Company Limited, Leoch International Technology Ltd, Exide Industries Ltd., Koyo Battery Co., Ltd., Tai Mao Battery Co., Ltd., PT Century Batteries Indonesia, Thai Bellco Battery Co.,Ltd. and CSB Battery Co., Ltd. (Hitachi Chemical Energy Technology Co. Ltd.).

 

Key Questions Answered in This Report:

 

  1. How has the global automotive lead-acid battery market performed so far and how will it perform in the coming years?
  2. What are the key regional markets in the global automotive lead-acid battery industry?
  3. What is the breakup of the global automotive lead-acid battery market on the basis of vehicle type?
  4. What is the breakup of the global automotive lead-acid battery market on the basis of product?
  5. What is the breakup of the global automotive lead-acid battery market on the basis of type?
  6. What is the breakup of the global automotive lead-acid battery market on the basis of customer segment?
  7. What are the various stages in the value chain of the global automotive lead-acid battery market?
  8. What are the key driving factors and challenges in the global automotive lead-acid battery market?
  9. What is the structure of the global automotive lead-acid battery market and who are the key players?
  10. What is the degree of competition in the global automotive lead-acid battery market?
  11. How are automotive lead-acid batteries manufactured?
1. Preface
2. Scope and Methodology

    2.1    Objectives of the Study
    2.2    Stakeholders
    2.3    Data Sources
        2.3.1    Primary Sources
        2.3.2    Secondary Sources
    2.4    Market Estimation
        2.4.1    Bottom-Up Approach
        2.4.2    Top-Down Approach
    2.5    Forecasting Methodology
3. Executive Summary
4. Introduction

    4.1    Overview
    4.2    Properties
    4.3    Key Industry Trends
5. Global Automotive Lead-Acid Battery Market
    5.1    Market Overview
    5.2    Market Performance
    5.3    Market Breakup by Vehicle Type
    5.4    Market Breakup by Product
    5.5    Market Breakup by Type
    5.6    Market Breakup by Customer Segment
    5.7    Market Breakup by Region
    5.8    Market Forecast
6. Market Breakup by Vehicle Type
    6.1    Passenger Cars
        6.1.1    Market Trends
        6.1.2    Market Forecast
    6.2    Commercial Vehicles
        6.2.1    Market Trends
        6.2.2    Market Forecast
    6.3    Two-Wheelers
        6.3.1    Market Trends
        6.3.2    Market Forecast
    6.4    HEV Cars
        6.4.1    Market Trends
        6.4.2    Market Forecast
7. Market Breakup by Product
    7.1    SLI Batteries
        7.1.1    Market Trends
        7.1.2    Market Forecast
    7.2    Micro Hybrid Batteries
        7.2.1    Market Trends
        7.2.2    Market Forecast
8. Market Breakup by Type
    8.1    Flooded Batteries 
        8.1.1    Market Trends
        8.1.2    Market Forecast
    8.2    Enhanced Flooded Batteries 
        8.2.1    Market Trends
        8.2.2    Market Forecast
    8.3    VRLA Batteries 
        8.3.1    Market Trends
        8.3.2    Market Forecast
9. Market Breakup by Customer Segment
    9.1    OEM
        9.1.1    Market Trends
        9.1.2    Market Forecast
    9.2    Replacement
        9.2.1    Market Trends
        9.2.2    Market Forecast
10. Market Breakup by Region
    10.1    Asia Pacific
        10.1.1    Market Trends
        10.1.2    Market Forecast
    10.2    North America
        10.2.1    Market Trends
        10.2.2    Market Forecast
    10.3    Europe
        10.3.1    Market Trends
        10.3.2    Market Forecast
    10.4    Middle East and Africa
        10.4.1    Market Trends
        10.4.2    Market Forecast
    10.5    Latin America
        10.5.1    Market Trends
        10.5.2    Market Forecast
11. Global Automotive Lead-Acid Battery Industry: SWOT Analysis
    11.1    Overview
    11.2    Strengths
    11.3    Weaknesses
    11.4    Opportunities
    11.5    Threats
12. Global Automotive Lead-Acid Battery Industry: Value Chain Analysis
    12.1    Overview
    12.2    Research and Development
    12.3    Raw Material Procurement
    12.4    Manufacturing
    12.5    Marketing
    12.6    Distribution
    12.7    End-Use
13. Global Automotive Lead-Acid Battery Industry: Porters Five Forces Analysis
    13.1     Overview
    13.2     Bargaining Power of Buyers
    13.3     Bargaining Power of Suppliers
    13.4     Degree of Competition
    13.5     Threat of New Entrants
    13.6     Threat of Substitutes
14. Global Automotive Lead-Acid Battery Industry: Price Analysis
    14.1      Price Indicators
    14.2      Price Structure
    14.3      Margin Analysis
15. Automotive Lead-Acid Battery Manufacturing Process
    15.1    Product Overview
    15.2    Raw Material Requirements
    15.3    Manufacturing Process
    15.4    Key Success and Risk Factors
16. Competitive Landscape
    16.1    Market Structure
    16.2    Key Players
    16.3    Profiles of Key Players
        16.3.1    Johnson Controls Inc.
        16.3.2    Exide Technologies Inc.
        16.3.3    GS Yuasa Corporation
        16.3.4    Reem Batteries & Power Appliances Co. Saoc
        16.3.5    Enersys Inc.
        16.3.6    Saft Groupe S.A.
        16.3.7    Northstar Battery Company LLC.
        16.3.8    C&D Technologies, Inc.
        16.3.9    Robert Bosch GmbH
        16.3.10      East Penn Manufacturing Company
        16.3.11      Panasonic Corporation
        16.3.12      Trojan Battery Company
        16.3.13      Samsung Sdi Company Limited
        16.3.14      Leoch International Technology Ltd
        16.3.15      Exide Industries Ltd.
        16.3.16      Koyo Battery Co., Ltd.
        16.3.17      Tai Mao Battery Co., Ltd.
        16.3.18      PT Century Batteries Indonesia
        16.3.19      Thai Bellco Battery Co.,Ltd.
        16.3.20      CSB Battery Co., Ltd. (Hitachi Chemical Energy Technology Co. Ltd.) 

Market by Vehicle Type 

  1. Passenger Cars
  2. Commercial Vehicles
  3. Two-Wheelers
  4. HEV Cars

Market by Product 

  1. SLI Batteries
  2. Micro Hybrid Batteries

Market by Type 

  1. Flooded Batteries  
  2. Enhanced Flooded Batteries  
  3. VRLA Batteries  

Market by Customer Segment 

  1. OEM
  2. Replacement

Market by Region 

  1. Asia Pacific
  2. North America
  3. Europe
  4. Middle East and Africa
  5. Latin America
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GCC SOLAR WATER HEATER MARKET: INDUSTRY TRENDS, SHARE, SIZE, GROWTH, OPPORTUNITY AND FORECAST 2019-2024

Energy & Mining Published by: IMARC GROUP Market: Middle East
115 pages Published: 02-11-2019
  • Energy & Mining
  • IMARC GROUP
  • Middle East
  • 115 pages
  • Published: 02-11-2019

Solar water heater is a device which uses solar energy from the sun to heat water. It is generally installed on terrace or in open spaces where abundant sunlight is available. The water is then heated during the day and stored in an insulated tank. The heated water can be used for bathing, cleaning, space heating, industrial process, etc. In the GCC region, the market for solar water heater has been expanding as an increasing number of consumers have become aware about its advantages. Solar water heater is preferred over conventional water heater as it is cost-effective and reduces dependence over fossil fuels. IMARC Group’s latest report titled, “GCC Solar Water Heater Market: Industry Trends, Share, Size, Growth, Opportunity and Forecast 2019-2024”, finds that the market reached a volume of 11.3 GW th in 2018, growing at a CAGR of 28.1% during 2011-2018.

 

The market for solar water heater in the GCC region is being driven by a number of favourable factors. Solar water heater offers several long-term advantages over conventional water heater. It reduces electricity consumption, lowers carbon footprints, improves energy independence, etc. The governments in the region are also encouraging the use of solar water heater through building regulation and providing subsidies. According to the report, the market is further expected to reach a volume of 48.7 GW th. by 2024.

 

The report has segmented the GCC solar water heater market on the basis of type covering flat plate collector, evacuated tube collector and unglazed water collector. Currently, flat plate collector accounts for the largest market share in the GCC region. The report has also segmented the market on the basis on application. The key applications of solar water heater include commercial, residential, government buildings and others. Country-wise, Saudi Arabia represents the largest market for solar water heater, accounting for the majority of the market share. The report has also analysed the competitive landscape of the market with some of the key players being Ariston, Orbital Horizon, Saudi Ceramics, Viessman, Ecotherm, etc.

 

This report provides a deep insight into the GCC solar water heater industry covering all its essential aspects. This ranges from macro overview of the market to micro details of the industry performance, recent trends, key market drivers and challenges, SWOT analysis, Porter’s five forces analysis, value chain analysis, etc. The report also provides a comprehensive analysis for setting up a solar water heater manufacturing plant. The study analyses the processing and manufacturing requirements, project cost, project funding, project economics, expected returns on investment, profit margins, etc. This report is a must-read for entrepreneurs, investors, researchers,   consultants, business strategists, and all those who have any kind of stake or are planning to foray into the GCC solar water heater industry in any manner.

 

Key Questions Answered in This Report:

 

  1. How has the GCC solar water heater market performed so far and how will it perform in the coming years?
  2. What are the key regional markets in the GCC solar water heater industry?
  3. What are the key type in the GCC solar water heater industry?
  4. What are the key end-se segments in the GCC solar water heater industry?
  5. What are the price trends of solar water heater in the GCC region?
  6. What are the various stages in the value chain of the GCC solar water heater industry?
  7. What are the key driving factors and challenges in the GCC solar water heater industry?
  8. What is the structure of the GCC solar water heater industry and who are the key players?
  9. What is the degree of competition in the GCC solar water heater industry?
  10. What are the profit margins in the GCC solar water heater industry?
  11. What are the key requirements for setting up a GCC solar water heater manufacturing plant?
  12. How is solar water heater manufactured?
  13. What are the various unit operations involved in a solar water heater manufacturing plant?
  14. What is the total size of land required for setting up a solar water heater manufacturing plant?
  15. What are the machinery requirements for setting up a solar water heater manufacturing plant?
  16. What are the raw material requirements for setting up a solar water heater manufacturing plant?
  17. What are the packaging requirements for solar water heater?
  18. What are the transportation requirements for solar water heater?
  19. What are the utility requirements for setting up a solar water heater manufacturing plant?
  20. What are the manpower requirements for setting up a solar water heater manufacturing plant?
  21. What are the infrastructure costs for setting up a solar water heater manufacturing plant?
  22. What are the capital costs for setting up a solar water heater manufacturing plant?
  23. What are the operating costs for setting up a solar water heater manufacturing plant?
  24. What will be the income and expenditures for a solar water heater manufacturing plant?
  25. What is the time required to break-even?
1. Preface
2. Scope and Methodology

    2.1 Objectives of the study
    2.2 Stakeholders
    2.3 Data Sources
        2.3.1 Primary Sources
        2.3.2 Secondary Sources
    2.4 Market Estimation
        2.4.1 Bottom-Up Approach
        2.4.2 Top-Down Approach
    2.5 Forecasting Methodology
3. Executive Summary
4. Introduction

    4.1    Overview
    4.2    Key Industry Trends
5. Global Solar Water Heater Industry
    5.1    Market Overview
    5.2    Market Performance
        5.2.1 Volume Trends
        5.2.2 Value Trends
    5.3    Price Trends
    5.4    Market Breakup by Region
    5.5    Market Breakup by Type
    5.6    Market Breakup by End-use
    5.7    Market Forecast
6. GCC Solar Water Heater Industry
    6.1    Market Overview
    6.2    Market Performance
        6.2.1 Volume Trends
        6.2.2 Value Trends
    6.3    Market Breakup by Region
    6.4    Market Breakup by Type
    6.5    Market Breakup by End-use
    6.6    Market Forecast
    6.7    SWOT Analysis
        6.7.1    Overview
        6.7.2    Strengths
        6.7.3    Weaknesses
        6.7.4    Opportunities
        6.7.5    Threats
    6.8    Value Chain Analysis
        6.8.1    Overview
        6.8.2    Research and Development
        6.8.3    Raw Material Procurement
        6.8.4    Manufacturing
        6.8.5    Marketing
        6.8.6    Distribution
        6.8.7    End-Use 
    6.9    Porter’s Five Forces Analysis
        6.9.1    Overview
        6.9.2    Bargaining Power of Buyers
        6.9.3    Bargaining Power of Suppliers
        6.9.4    Degree of Competition
        6.9.5    Threat of New Entrants
        6.9.6    Threat of Substitutes
    6.10    Key Success Factors and Risk Factors for Solar Water Heater Manufacturers
7. Saudi Arabia Solar Water Heater Industry
    7.1    Market Overview
    7.2    Market Performance
    7.3    Market Breakup by Type
    7.4    Market Breakup by End-use
    7.5    Market Forecast
8. UAE Solar Water Heater Industry
    8.1    Market Overview
    8.2    Market Performance
    8.3    Market Breakup by Type
    8.4    Market Breakup by End-use
    8.5    Market Forecast
9. Kuwait Solar Water Heater Industry
    9.1    Market Overview
    9.2    Market Performance
    9.3    Market Breakup by Type
    9.4    Market Breakup by End-use
    9.5    Market Forecast
10. Oman Solar Water Heater Industry
    10.1    Market Overview
    10.2    Market Performance
    10.3    Market Breakup by Type
    10.4    Market Breakup by End-use
    10.5    Market Forecast
11. Qatar Solar Water Heater Industry
    11.1    Market Overview
    11.2    Market Performance
    11.3    Market Breakup by Type
    11.4    Market Breakup by End-use
    11.5    Market Forecast
12. Bahrain Solar Water Heater Industry
    12.1    Market Overview
    12.2    Market Performance
    12.3    Market Breakup by Type
    12.4    Market Breakup by End-use
    12.5    Market Forecast
13. Competitive Landscape
    13.1    Market Structure
    13.2    Market Breakup by Key Players
14. Solar Water Heater Manufacturing Process
    14.1    Product Overview
    14.2    Detailed Process Flow
    14.3    Various Types of Unit Operations Involved
    14.4    Mass Balance and Raw Material Requirements
15. Project Details, Requirements and Costs Involved
    15.1    Land Requirements and Expenditures
    15.2    Construction Requirements and Expenditures
    15.3    Plant Machinery
    15.4    Raw Material Requirements and Expenditures
    15.5    Packaging Requirements and Expenditures
    15.6    Transportation Requirements and Expenditures
    15.7    Utility Requirements and Expenditures
    15.8    Manpower Requirements and Expenditures
    15.9    Other Capital Investments
16. Loans and Financial Assistance
17. Project Economics

    17.1    Capital Cost of the Project
    17.2    Techno-Economic Parameters
    17.3    Product Pricing and Margins Across Various Levels of the Supply Chain
    17.4    Taxation and Depreciation
    17.5    Income Projections
    17.6    Expenditure Projections
    17.7    Financial Analysis
    17.8    Profit Analysis
18. Key Player Profiles

Global Solar Water Heater Industry
GCC Solar Water Heater Industry
Saudi Arabia Solar Water Heater Industry
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