In-Pipe Hydro Systems Market size is expected to reach nearly US$ 133.61 Mn. by 2030 with the CAGR of 3.4% during the forecast period. The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region. In-pipe hydro systems market are relatively easy to set up and don’t require additional infrastructure or substantial upfront capital. This has shown highly useful to their market. Other factors, serving to boost their uptake are the swift pace of urbanization and an equally frantic pace of construction activities, globally. Policy hold up by governments of developing as well as developed nations for generation of renewable energy and technology conservation like in pipe hydro systems are helping in catalysing the market growth. In-pipe hydro systems implies the use of microturbines that can be embedded inside an existing network of pipelines, and make use of the natural gravitational water flow within the pipes towards the high-pressure heads.To know about the Research Methodology :- Request Free Sample Report In-pipe hydro systems are essentially microturbines, designed to be embedded within or onto the existing pipeline network having natural gravity flow of water with high-pressure heads. These turbines transform the energy of flowing water into electricity that can be consumed locally or sent back to the main grid. Besides the reduced cost of power generation and moderate capital investment, rampant urbanization and the subsequent building activities are also majorly fuelling the global in-pipe hydro systems. The energy produced by the in-pipe hydro system eliminates the weather dependency, which is observed with the energy produced by other Designs of renewable-based energy generation systems. In-Pipe Hydro Systems Market is segmented into design, application, capacity, and region. On the basis of design, the internal systems accounted for a lion’s share of 80.0% in the market in 2017. The internal systems are installed inside the pipe, therefore its specification depends upon the diameter of the pipe. External systems are installed onto the pipe but they require enclosure vaults. The external pipe hydro system provides greater flexibility in terms of installation, but it needs larger vaults for installation over the pipe. Based on application, the wastewater segment is the most attractive segment in the overall in pipe hydro systems market and is expected to remain most lucrative during the forecast period. The industrial water system segment holds the major market share for 2017 and expected to maintain steady growth for the forecast period. In terms of capacity, interestingly for the forecasted period, growth in terms of CAGR is more for the Pico turbines. In terms of region, North America holds the key market share followed by Asia Pacific & Europe. North-America is expected to occupy the maximum market share, during the forecast period. However, the market attractiveness is showing interesting growth trend in the Asia Pacific region for the forecast period. Some of the key prominent market players in the In-Pipe Hydro Systems Market are Xinda Green Energy., Hydrospin Ltd., Leviathan Energy Hydroelectric Ltd., Fuji Electric, Lucid Energy, Tecnoturbines, Natel Energy Inc., Canyon Hydro, Rentricity, HS Dynamic Energy and Energy Systems & Design.The Scope of The In-Pipe Hydro Systems Market: Inquire before buying
Global In-Pipe Hydro Systems Market Report Coverage Details Base Year: 2023 Forecast Period: 2024-2030 Historical Data: 2018 to 2023 Market Size in 2023: US $ 105.73 Mn. Forecast Period 2024 to 2030 CAGR: 3.4% Market Size in 2030: US $ 133.61 Mn. Segments Covered: by Design Internal Systems External System by Application Wastewater System Industrial Water System Irrigation System Residential by Capacity Micro Hydro (5kW - 100 kW) Pico Hydro (Less than 5kW) In-Pipe Hydro Systems Market, by Region
North America (United States, Canada and Mexico) Europe (UK, France, Germany, Italy, Spain, Sweden, Austria, Turkey, Russia and Rest of Europe) Asia Pacific (China, India, Japan, South Korea, Australia, ASEAN and Rest of APAC) Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A) South America (Brazil, Argentina, Columbia and Rest of South America)In-Pipe Hydro Systems Market, Key Players are
1. Xinda Green Energy. 2. Hydrospin Ltd. 3. Leviathan Energy Hydroelectric Ltd. 4. Fuji Electric 5. Lucid Energy 6. Techno turbines 7. Natel Energy Inc. 8. Canyon Hydro 9. Rentricity 10. HS Dynamic Energy 11. Energy Systems & Design 12. Kubota Corporation 13. Arup 14. Hitachi Industrial Equipment Systems 15. San Antonio Water System 16. GS-Hydro Frequently Asked Questions: 1. Which region has the largest share in Global In-Pipe Hydro Systems Market ? Ans: North America region held the highest share in 2023. 2. What is the growth rate of Global In-Pipe Hydro Systems Market ? Ans: The Global In-Pipe Hydro Systems Market is growing at a CAGR of 3.4% during forecasting period 2024-2030. 3. What is scope of the Global In-Pipe Hydro Systems Market report? Ans: Global In-Pipe Hydro Systems Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. Who are the key players in Global In-Pipe Hydro Systems Market ? Ans: The important key players in the Global In-Pipe Hydro Systems Market are – Xinda Green Energy., Hydrospin Ltd., Leviathan Energy Hydroelectric Ltd., Fuji Electric, Lucid Energy, Techno turbines, Natel Energy Inc., Canyon Hydro, Rentricity, HS Dynamic Energy, Energy Systems & Design, Kubota Corporation, Arup, Hitachi Industrial Equipment Systems, San Antonio Water System, GS-Hydro. 5. What is the study period of this Market? Ans: The Global In-Pipe Hydro Systems Market is studied from 2023 to 2030.
In-Pipe Hydro Systems Market
1. INTRODUCTION 1.1 Report Description 1.1.1 Objectives of the Study 1.1.2 Market Scope 1.1.3 Years considered in the study 1.1.4 Currency 1.1.5 Stakeholders 1.2 Target Audience 1.3 Key Takeaways 2. RESEARCH METHODOLOGY 2.1 Research Methodology 2.2 Market Definition 2.3 Assumptions and Acronyms Used 2.4 Data Sources 2.4.1 Secondary 2.4.1.1 Paid 2.4.1.2 Unpaid 2.4.2 Primary 2.5 Analyst tools and models 3. EXECUTIVE SUMMARY 3.1 In-Pipe Hydro Systems Market Overview 3.1.1 By Design 3.1.2 By Capacity 3.1.3 By Application 3.1.4 By Geography 4. HISTORICAL PERSPECTIVE AND CURRENT TRENDS 4.1 In-Pipe Hydro Systems Market 4.1.1 Emergence and Evolution 4.1.2 Technological Transformations 4.1.3 IN-PIPE HYDRO SYSTEMS MARKET by Region 4.1.3.1 North America In-Pipe Hydro Systems Market 4.1.3.1.1 Key Economic Indicators 4.1.3.1.1.1 Country wise GDP Growth Forecast 4.1.3.1.1.1.1 USA 4.1.3.1.1.1.2 Canada 4.1.3.2 Europe In-Pipe Hydro Systems Market 4.1.3.2.1 Key Economic Indicators 4.1.3.2.1.1 Country wise GDP Growth Forecast 4.1.3.2.1.1.1 Germany 4.1.3.2.1.1.2 U.K 4.1.3.2.1.1.3 France 4.1.3.2.1.1.4 Russia 4.1.3.2.1.1.5 Spain 4.1.3.2.1.1.6 Others 4.1.3.3 Asia Pacific In-Pipe Hydro Systems Market 4.1.3.3.1 Key Economic Indicators 4.1.3.3.1.1 Country wise GDP Growth Forecast 4.1.3.3.1.1.1 China 4.1.3.3.1.1.2 India 4.1.3.3.1.1.3 Japan 4.1.3.3.1.1.4 South Korea 4.1.3.3.1.1.5 Others 4.1.3.4 Latin America, Africa and Middle East In-Pipe Hydro Systems Market 4.1.3.4.1 Key Economic Indicators 4.1.3.4.1.1 Country wise GDP Growth Forecast 4.1.3.4.1.1.1 Brazil 4.1.3.4.1.1.2 South Africa 4.1.3.4.1.1.3 Saudi Arabia 4.1.3.4.1.1.4 UAE 4.1.3.4.1.1.5 Others 4.2 IN-PIPE HYDRO SYSTEMS MARKET 4.3 In-Pipe Hydro Systems Market Definition, Segmentation and Scope of Study 4.4 Market Dynamics 4.4.1 Drivers 4.4.2 Restraints 4.5 Competitive Analysis 4.5.1 Key Strategic Initiatives 4.5.2 Regional Presence 4.5.3 Product Overview 4.6 Porter’s Analysis 4.7 PESTEL Analysis 4.8 Product Benchmark Analysis 4.9 Company Market Share Analysis 4.10 Key Findings 4.10.1 Top Wining Strategies 4.10.2 Top Investment Pockets 4.10.3 Top Impacting Factors 5. IN-PIPE HYDRO SYSTEMS MARKET, BY DESIGN 5.1 In-Pipe Hydro Systems Market: Design Segment Market Share analysis 5.2 In-Pipe Hydro Systems Market: Design Segment Market Size and Forecast 2023-2030 5.3 Internal Systems 5.4 External System 5.5 In-Pipe Hydro Systems Market Benchmarking By Design 5.6 In-Pipe Hydro Systems Market by Design: Key Trends 5.7 In-Pipe Hydro Systems Market by Design: Key Developments 6. IN-PIPE HYDRO SYSTEMS MARKET, BY CAPACITY 6.1 In-Pipe Hydro Systems Market: Capacity segment Market Share Analysis 6.2 IN-PIPE HYDRO SYSTEMS MARKET: Capacity segment Market Size and Forecast 2023-2030 6.3 Wastewater System 6.4 Industrial Water System 6.5 Irrigation System 6.6 Residential 6.7 In-Pipe Hydro Systems Market Benchmarking By Capacity 6.8 In-Pipe Hydro Systems Market by Capacity: Key Trends 6.9 In-Pipe Hydro Systems Market by Capacity: Key Developments 7. IN-PIPE HYDRO SYSTEMS MARKET, BY CAPACITY 7.1 In-Pipe Hydro Systems Market: Capacity segment Market Share Analysis 7.2 IN-PIPE HYDRO SYSTEMS MARKET: Capacity segment Market Size and Forecast 2023-2030 7.3 Micro Hydro (5kW - 100 kW) 7.4 Pico Hydro (Less than 5kW) 7.5 In-Pipe Hydro Systems Market Benchmarking By Capacity 7.6 In-Pipe Hydro Systems Market by Capacity: Key Trends 7.7 In-Pipe Hydro Systems Market by Capacity: Key Developments 8. IN-PIPE HYDRO SYSTEMS MARKET, BY GEOGRAPHY 8.1 In-Pipe Hydro Systems Market: Geography segment Market Share Analysis 8.2 In-Pipe Hydro Systems Market: Geography segment Market Size and Forecast 2023-2030 8.3 North America In-Pipe Hydro Systems Market 8.3.1 Overview 8.3.2 Market Size and Forecast, by Design 2023-2030 8.3.3 Market Share Analysis , by Design 2023-2030 8.3.4 Market Size and Forecast, by Application2019-2026 8.3.5 Market Share Analysis , by Application 2023-2030 8.3.6 Market Size and Forecast, by Capacity 2023-2030 8.3.7 Market Share Analysis , by Capacity 2023-2030 8.3.8 Market Size and Forecast, by Country 2023-2030 8.3.9 Market Share Analysis , by Country 2023-2030 8.4 Europe In-Pipe Hydro Systems Market 8.4.1 Overview 8.4.2 Market Size and Forecast, by Design 2023-2030 8.4.3 Market Share Analysis , by Design 2023-2030 8.4.4 Market Size and Forecast, by Application 2023-2030 8.4.5 Market Share Analysis , by Application 2023-2030 8.4.6 Market Size and Forecast, by Capacity 2023-2030 8.4.7 Market Share Analysis , by Capacity 2023-2030 8.4.8 Market Size and Forecast, by Country 2023-2030 8.4.9 Market Share Analysis , by Country 2023-2030 8.5 Asia Pacific In-Pipe Hydro Systems Market 8.5.1 Overview 8.5.2 Market Size and Forecast, by Design 2023-2030 8.5.3 Market Share Analysis , by Design 2023-2030 8.5.4 Market Size and Forecast, by Application 2023-2030 8.5.5 Market Share Analysis , by Application 2023-2030 8.5.6 Market Size and Forecast, by Capacity 2023-2030 8.5.7 Market Share Analysis , by Capacity 2023-2030 8.5.8 Market Size and Forecast, by Country 2023-2030 8.5.9 Market Share Analysis , by Country 2023-2030 8.6 Latin America, Middle East and Africa In-Pipe Hydro Systems Market 8.6.1 Overview 8.6.2 Market Size and Forecast, by Design 2023-2030 8.6.3 Market Share Analysis , by Design 2023-2030 8.6.4 Market Size and Forecast, by Application2019-2026 8.6.5 Market Share Analysis , by Application 2023-2030 8.6.6 Market Size and Forecast, by Capacity 2023-2030 8.6.7 Market Share Analysis , by Capacity 2023-2030 8.6.8 Market Size and Forecast, by Country 2023-2030 8.6.9 Market Share Analysis , by Country 2023-2030 8.7 In-Pipe Hydro Systems Market Benchmarking By Geography 8.8 In-Pipe Hydro Systems Market by Geography : Key Trends 8.9 In-Pipe Hydro Systems Market by Geography : Key Developments 9. COMPITITIVE LANDSCAPE 9.1 Market Share/ Positioning Analysis 9.2 Key Innovators 9.3 Company Profiles 9.3.1 Xinda Green Energy 9.3.1.1 Overview 9.3.1.2 Product/Service Portfolio 9.3.1.3 Key Financials 9.3.1.4 Strategic Initiatives 9.3.1.5 SWOT Analysis 9.3.1.6 Competitive Assessment 9.3.2 Hydrospin Ltd. 9.3.2.1 Overview 9.3.2.2 Product/Service Portfolio 9.3.2.3 Key Financials 9.3.2.4 Strategic Initiatives 9.3.2.5 SWOT Analysis 9.3.2.6 Competitive Assessment 9.3.3 Leviathan Energy Hydroelectric Ltd. 9.3.3.1 Overview 9.3.3.2 Product/Service Portfolio 9.3.3.3 Key Financials 9.3.3.4 Strategic Initiatives 9.3.3.5 SWOT Analysis 9.3.3.6 Competitive Assessment 9.3.4 Fuji Electric 9.3.4.1 Overview 9.3.4.2 Product/Service Portfolio 9.3.4.3 Key Financials 9.3.4.4 Strategic Initiatives 9.3.4.5 SWOT Analysis 9.3.4.6 Competitive Assessment 9.3.5 Lucid Energy 9.3.5.1 Overview 9.3.5.2 Product/Service Portfolio 9.3.5.3 Key Financials 9.3.5.4 Strategic Initiatives 9.3.5.5 SWOT Analysis 9.3.5.6 Competitive Assessment 9.3.6 Techno turbines 9.3.6.1 Overview 9.3.6.2 Product/Service Portfolio 9.3.6.3 Key Financials 9.3.6.4 Strategic Initiatives 9.3.6.5 SWOT Analysis 9.3.6.6 Competitive Assessment 9.3.7 Natel Energy Inc. 9.3.7.1 Overview 9.3.7.2 Product/Service Portfolio 9.3.7.3 Key Financials 9.3.7.4 Strategic Initiatives 9.3.7.5 SWOT Analysis 9.3.7.6 Competitive Assessment 9.3.8 Canyon Hydro 9.3.8.1 Overview 9.3.8.2 Product/Service Portfolio 9.3.8.3 Key Financials 9.3.8.4 Strategic Initiatives 9.3.8.5 SWOT Analysis 9.3.8.6 Competitive Assessment 9.3.9 Rentricity 9.3.9.1 Overview 9.3.9.2 Product/Service Portfolio 9.3.9.3 Key Financials 9.3.9.4 Strategic Initiatives 9.3.9.5 SWOT Analysis 9.3.9.6 Competitive Assessment 9.3.10 HS Dynamic Energy 9.3.10.1 Overview 9.3.10.2 Product/Service Portfolio 9.3.10.3 Key Financials 9.3.10.4 Strategic Initiatives 9.3.10.5 SWOT Analysis 9.3.10.6 Competitive Assessment 9.3.11 Energy Systems & Design 9.3.11.1 Overview 9.3.11.2 Product/Service Portfolio 9.3.11.3 Key Financials 9.3.11.4 Strategic Initiatives 9.3.11.5 SWOT Analysis 9.3.11.6 Competitive Assessment 9.3.12 Kubota Corporation 9.3.12.1 Overview 9.3.12.2 Product/Service Portfolio 9.3.12.3 Key Financials 9.3.12.4 Strategic Initiatives 9.3.12.5 SWOT Analysis 9.3.12.6 Competitive Assessment 9.3.13 Arup 9.3.13.1 Overview 9.3.13.2 Product/Service Portfolio 9.3.13.3 Key Financials 9.3.13.4 Strategic Initiatives 9.3.13.5 SWOT Analysis 9.3.13.6 Competitive Assessment 9.3.14 Hitachi Industrial Equipment Systems 9.3.14.1 Overview 9.3.14.2 Product/Service Portfolio 9.3.14.3 Key Financials 9.3.14.4 Strategic Initiatives 9.3.14.5 SWOT Analysis 9.3.14.6 Competitive Assessment 9.3.15 San Antonio Water System 9.3.15.1 Overview 9.3.15.2 Product/Service Portfolio 9.3.15.3 Key Financials 9.3.15.4 Strategic Initiatives 9.3.15.5 SWOT Analysis 9.3.15.6 Competitive Assessment 9.3.16 GS-Hydro 9.3.16.1 Overview 9.3.16.2 Product/Service Portfolio 9.3.16.3 Key Financials 9.3.16.4 Strategic Initiatives 9.3.16.5 SWOT Analysis 9.3.16.6 Competitive Assessment 10. CONSOLIDATION 10.1 Mergers and Acquisitions 10.1.1 Overview 10.1.2 Key Drivers – By Region 10.1.3 M&A Breakdown 10.1.3.1 Application Based 10.1.3.2 Capacity Based 10.1.3.3 Niche Based 10.1.3.4 Region Based 10.1.3.5 Asset & Non-Asset Based 10.1.3.6 Venture Capitalist Based 10.2 Fragmentation of Global In-Pipe Hydro Systems Market 10.3 Partnership, Joint Ventures and Strategic Alliances/ Sales Agreements 10.4 New/Emerging Models of Partnerships: Key Examples 10.5 New/Emerging Business Models: Key Examples 10.6 Changing Investment Paradigm: Focused areas by Key Players 10.7 Patent Analysis 11. LIST OF TABLES 12. LIST OF FIGURES