Global Ash Handling System Market - Analysis by Deployment, Location - Growth Trends and Forecasts 2017 - 2022

  • ID: 4385529
  • Report
  • Region: Global
  • 126 pages
  • Mordor Intelligence
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The market for global Ash handling System is expected to be USD XX billion at the end of the year 2015 and by the end of 2022 it is estimated to reach USDXX billion. The market is expected to grow at a rate of XX%. Ash handling plants are installed to contain the ash generated from factories. In factories where coal is extensively used, generate a lot of residue in the form of ash particles after the combustion of fuel. In a thermal power plant the ash generated can be about 30%-40% of the fuel used. For example in USA alone, more than 100 million tons of ash is generated every year from its thermal power plants. It can be in the form of bed ash, coarse ash and fly ash and contain different abrasive materials based on its material and combustion. These ash are screened, collected and disposed by ash handling systems.

Ash handling systems are used mostly in thermal power plants since this is where maximum ash is generated. Coal based thermal power plants mostly use ash handling plants. Apart from thee, cogeneration plants where heat is used in multiple processes also use ash handling system. Waste to energy plants generate much higher content of ash than regular coal handling plants. So these plant have to use ash handling plants. Steel plants, Alumina plants where there is huge requirement of heat the resultant ash generated needs to be handled by ash handling plant.

Thermal power plants all over the world use coal as predominant source of energy. Due to its lower cost and wider availability it has been preferred over other means of fuel. The problem associated with coal is that majority of coal used is not of high quality so the energy content of the coal is lower and the ash content is high. This ash once escapes the plants is a source of widespread environmental pollution. Due to increased awareness for pollution caused by the factories and power plants, there has been demand to clamp down on the level of pollution. This demand has made the installation of ash handling plants in the factory possible. Also once the ash is removed from plant it comes in the form of slurry which is disposed in ash ponds and left to dry. This slurry water then escapes underground and pollutes the water sources. So there is demand to reduce the ash so as to protect the ground water. Since fly ash consists of fine ash particles, so the permeability of the ash is quite low. When discharged into the hooper this ash may create a reverse flow and may not be properly discharged. Also when adequate air is present this ash behaves as a liquid. It causes excessive flow that turns into flooding and the system may not handle and choke as a result.

The ash handling system consists of several components like, Hooper, feeder, crusher/granular, fluidizing air system, magnetic air separator, conveyor system and screen system. Scraper chain gathers ash from the bottom of the boiler. The conveyor system transfers the ash out of the boiler. The magnetic separator separates the left over metallic compounds from the ash. The screening system collects the ash and separated the non-metallic compounds. Crusher converts the residue so that they are easy to handle. Based on ash handling the system can be divided into bottom ash handling system, coarse air handling system, air preheat ash handling system. Also based on type of ash the system can be wet or dry ash type.

In every country there exists a number of old thermal power plants. These Older thermal plants built with generations old technology are a major sources of pollution due to insufficient combustion. Currently countries either have to shut this plants or manage its pollution. This is a market for ash handling plants. Also many governments have implemented environment protection plans where by guidelines for the creation and disposal of wastage is regulated. To comply with this regulations, factories need to employ ash handling plants. When the internal air currents have sufficient strength they can disturb the ash collection and choke the system. Also the ash contains significant amount of abrasive compounds. Due to constant exposure the ash handling system has to face increased pressure of wear and tear.

Key Deliverables:

Market analysis for the global ash handling system Market, with region specific assessments and competition analysis on global and regional scales
Market definition along with the identification of key drivers and restraints
Identification of factors instrumental in changing the market scenarios, rising prospective opportunities, and identification of key companies that can influence this market on a global and regional scale
Extensively researched competitive landscape section with profiles of major companies along with their market shares
Identification and analysis of the macro and micro factors that affect the global ash handling system market on both global and regional scales
A comprehensive list of key market players along with the analysis of their current strategic interests and key financial information
A wide-ranging knowledge and insights about the major players in this industry and the key strategies adopted by them to sustain and grow in the studied market
Insights on the major countries/regions in which this industry is blooming and to also identify the regions that are still untapped
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1. Introduction
1.1 Study Deliverables
1.2 Market Definition
1.3 Sizing Units
1.4 Base Currency
1.5 Review and Forecast Period Years
2. Research Methodology
2.1 Introduction
2.2 Analysis Methodology
2.3 Econometric Forecast Model
2.4 Research Assumptions
3. Executive Summery
4. Key Inferences
5. Market Overview and Technology Trends
5.1 Current Market Scenario
5.2 Applications of Ash Handling System
5.3 Investment Analysis
5.4 Porters Five Forces Framework
5.5 Bargaining Power of Supplier
5.6 Bargaining Power of Consumer
5.7 Threat of New Entrants
5.8 Threat of Substitute of Products and Services
5.9 Competitive Rivalry Within The Industry
5.10 Drivers, Restraints, Opportunities, and Challenges Analysis (Endogenous Factors)
5.11 Market Drivers
5.11.1 Demand for Cleaner Environment
5.11.2 Protection of Ground Water
5.12 Market Restraints
5.12.1 Flow Rate Restriction
5.12.2 Flooding
5.13 Key Challenges
5.13.1 Wear and Tear of the System
5.13.2 Dust Generation
5.14 Current Opportunities in the Market
5.14.1 Reduction in Pollution Control From Older Power Plants
5.14.2 Environment Regulation Compliance
5.15 Technology Trends
5.15.1 New Developments
5.15.2 Industry Value Chain Analysis
5.15.3 Product Life-Cycle Analysis
5.15.4 Product Benchmarking
6. Global Ash Handling System Market, by Component
6.1 Hooper
6.2 Feeder
6.3 Crusher/Granulator
6.4 Fluidizing air system
6.5 Magnetic Separator
6.6 Conveyor System
6.7 Screening System
7. Global Ash Handling System Market, by Type
7.1 Bottom Ash Handling System
7.2 Coarse Ash (Economizer Ash) handling System
7.3 Air Pre Heater ash handling system
7.4 Fly Ash Handling System
7.5 Wet Type
7.6 Dry Type
8. Global Ash Handling System Market, by Industry Type
8.1 Thermal Power Plants
8.2 Alumina Plant
8.3 Steel Plant
8.4 Waste To Energy Plant
8.5 Cogeneration Plant
9. Global Ash Handling System Market, by Geography – Regional Share and Forecasts
9.1 North America (NA)
9.1.1 Introduction
9.1.2 United States
9.1.3 Canada
9.1.4 Rest of North America
9.2 Europe
9.2.1 Introduction
9.2.2 Germany
9.2.3 United Kingdom
9.2.4 France
9.2.5 Italy
9.2.6 Spain
9.2.7 Russia
9.2.8 Rest of the Europe
9.3 Asia-Pacific (APAC)
9.3.1 Introduction
9.3.2 China
9.3.3 Japan
9.3.4 India
9.3.5 Australia
9.3.6 South Korea
9.3.7 Rest of Asia-Pacific
9.4 Middle-East and Africa (MEA)
9.4.1 Introduction
9.4.2 UAE
9.4.3 Saudi Arabia
9.4.4 Israel
9.4.5 Rest of the MEA
9.5 Latin America
9.5.1 Introduction
9.5.2 Brazil
9.5.3 Argentina
9.5.4 Mexico
9.5.5 Rest of Latin America
10. Competitive Landscape
10.1 Market Share Analysis
10.2 Organic and Inorganic Growth Strategies
10.3 Patent Analysis
10.4 The Challengers
10.5 Zero-Sum Quadrant
11. Key Vendor Analysis
11.1 Ducon
11.2 Mecgale Pneumatics Pvt Ltd
11.3 Schenck Process
11.4 Desein
11.5 Technip
11.6 Sinofinn New Energy Investment Company
11.7 Qingdao Sizhou Electric Power Equipment Co. Ltd
11.8 Kawasaki
11.9 Clyde Bergemann Huatong Materials Handling Company Limited (CBH)
11.10 McNally Bharat Engineering Co. Ltd
11.11 United Conveyor Corporation
11.12 Driplex Water Engineering Ltd
11.13 KC Cottrell Taiwan Co. Ltd
11.14 GreenBank
12. Analyst Outlook for Investment Opportunities
13. Future Outlook of the Market
14. Appendix
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