Dynamometer Market by Product Type (Power Absorption Dynamometers (Rope Brake Dynamometer, Prony Brake Dynamometer, Hydraulic Dynamometers, Eddy Current Dynamometer) And Power Transmission Dynamometers (Epicyclical Train Dynamometer, Belt Transmission Dynamometer, Torison Dynamometer)) by Power (Up to 700 Kw, 701–8,000 Kw, and Above 8,000 Kw) by Torque (Up to 1,000 Nm, 1,001–5,000 Nm, and Above 5,000 Nm) by End-Use Industry (Marine, Oil & Gas, Mining & Metals, Power Generation, Chemicals & Petrochemicals, Food & Beverage, Automotive, Aerospace & Defense, Water & Wastewater Treatment, Others) and by Region - Global Trends and Forecast to 2027
Dynamometer is a device which is used to measure the frictional resistance. Frictional resistance can help determine the torque transmitted and hence the power of a drive equipment. In other words, a dynamometer is a device used for measuring the torque and brake power required to operate a driven machine. Dynamometers help measure mechanical force, or power, transmitted by a rotating shaft. The dynamometer application measures power of engines, electric motors and hydraulic motors in conjunction with some form of braking. Dynamometers aid in testing of turbines, compressors, pumps, generators, motors, engines, power trains that form a significant component of automobile, power, and aerospace industry.
Electric vehicles (EVs) are becoming more popular in the 21st century as the reserves of petroleum are depleting and governments have become more concerned about pollution. The two main components of an electric car are the battery and the electric motor. A vehicle's propulsion is powered by an electric motor, which is a key component. Due to the high motor loads faced on steep terrains, large payload, and high ambient temperatures, electric/hybrid vehicle motors are especially susceptible to aging effects. Electric car motor drive systems have a substantially higher power density than conventional uses. Vehicle breakdowns can occur if the insulating system of these components fails. Thus, motor monitoring help to reduce the failures and help to diagnose the problem in motor system of EV prior to failure. This can, in turn, help companies to save a lot of money as well as help to make a safer and more reliable vehicle. For example, the recalls for motor failures cost many companies millions of dollars and adversely affect their reputation, which can be averted by using dynamometer for testing. As a result, the surging urgent demand for dynamometers is expected to boost the global dynamometer market.
Global dynamometer market, based on type, have been categorized as power absorption dynamometers, and power transmission dynamometers. Power absorption dynamometers are further classified as prony brake dynamometer, rope brake dynamometer, eddy current dynamometer, and hydraulic dynamometer. Power transmission dynamometers include epicyclic-train dynamometer, belt transmission dynamometer, and torsion dynamometer. Power Absorption dynamometers measure and absorb the power output of the engine to which they are coupled. The power absorbed is usually dissipated as heat by some means. In power transmission dynamometers the power is transmitted to the load coupled to the engine after it is indicated on some scale. Transmission dynamometers are also called torque meters. They mostly consist of a set of strain-gauges fixed on the rotating shaft and the torque is measured by the angular deformation of the shaft which is indicated as the train the of the strain gauge. A four-arm bridge is used to reduce the effect of temperature, and the gauges are arranged in pairs such that the effect of axial or transverse load on the strain gauges is avoided.
Global dynamometer market, based on power, have been categorized as up to 700 kW, 701–8,000 kW, and above 8,000 kW. Dynamometers rated up to 700 kW are suitable for car engines and motors and small motors, engines and rotating equipment used in construction, oil & gas, transportation, on-highway, and military applications. Dynamometers rated 701–8,000 kW are suitable for high performance car engines and wind turbines. Dynamometers rated above 8,000 kW are used for wind and gas turbines, and jet engines.
Global dynamometer market, based on torque pressure, have been categorized as up to up to 1,000 Nm, 1,001–5,000 Nm, and above 5,000 Nm. Dynamometers rated above 5,000 Nm are suitable for testing motors, engines and rotating equipment used in construction, on-highway, mining, power generation, and marine diesel engines among other applications.
On the basis of end-user industry, the global dynamometer market is segmented into marine, oil & gas, mining & metals, power generation, chemicals & petrochemicals, food & beverage, automotive, healthcare, water & wastewater treatment, others. Others includes construction and transportation. Motor and engine testing dynamometers apply braking or drag resistance to motor rotation and measure torque at various speeds and power input levels. These devices measure the output torque of motors, engines, gearboxes, transmissions, and other rotary machines. They can include features such as fuel and exhaust monitoring for internal combustion engines, input power analysis for electric motors, and temperature and vibration sensing. Air dynamometers use an impeller to assess the power produced by a jet engine or gas turbine. Common applications for dynamometers include general purpose, automotive, aircraft or aerospace, chain or belt drives, gearboxes, fluid power systems, gas or diesel engines, industrial, marine, transmissions, and turbines. Dynamometers. For instance, in the marine industry, Dynamometers guarantee that engines, hydraulic components, and systems as safe for operation, propulsion, electricity and other application. Dynamometers help validate a new engine is up to factory specification before the vessel is shipped. It also helps in testing remanufactured and repaired engines which prevents costly setbacks.
In terms of region, the global dynamometer market can be segregated into North America, Europe, Asia Pacific, Middle East & Africa, and South America. The market in Asia Pacific is expected to grow at the highest rate. The growth of the market in this region is attributed to the presence of several manufacturing industries and increasing awareness regarding the benefits of the implementation of testing and monitoring solutions. China, Japan, South Korea, and India are some of the prolific countries in Asia Pacific with a considerable presence of manufacturing industries; therefore, there is a continuous demand for dynamometer systems in Asia Pacific.
The few of the major players operating in the global dynamometer market include AMETEK, Power Test, Froude, SAKOR Technologies, Dyno Dynamics, Jiangsu Lanmec Electromechanical Technology Co., Ltd., Dynocom Industries, and others.
TABLE OF CONTENTS
1. INTRODUCTION
1.1. STUDY OBJECTIVES
1.2. MARKET DEFINITION
1.3. INCLUSIONS AND EXCLUSIONS
1.3.1. DYNAMOMETER MARKET, BY PRODUCT TYPE: INCLUSION AND EXCLUSIONS
1.3.2. DYNAMOMETER MARKET, BY POWER: INCLUSION AND EXCLUSIONS
1.3.3. DYNAMOMETER MARKET, BY TORUE: INCLUSION AND EXCLUSIONS
1.3.4. DYNAMOMETER MARKET, BY END-USE INDUSTRY: INCLUSION AND EXCLUSIONS
1.4. MARKET SCOPE
1.4.1. MARKET SEGMENTATION
1.4.2. REGIONAL SCOPE
1.5. YEARS CONSIDERED
1.6. UNITS
1.7. CURRENCY
1.8. STAKEHOLDERS
2. RESEARCH METHODOLOGY
2.1. RESEARCH DATA
2.1.1. SECONDARY DATA
2.1.1.1. Key data from secondary sources
2.1.2. PRIMARY DATA
2.1.2.1. Key data from primary sources
2.1.2.2. Key industry insights
2.1.2.3. Breakdown of primary interviews
2.2. MARKET SIZE ESTIMATION
2.2.1. BOTTOM-UP APPROACH
2.2.2. TOP-DOWN APPROACH
2.3. DATA TRIANGULATION
2.3.1. DYNAMOMETER MARKET ANALYSIS THROUGH PRIMARY INTERVIEWS
2.4. RESEARCH ASSUMPTIONS
2.5. LIMITATIONS
2.6. RISK ASSESSMENT
3. EXECUTIVE SUMMARY
4. PREMIUM INSIGHTS
4.1. ATTRACTIVE OPPORTUNITIES IN GLOBAL DYNAMOMETER MARKET
4.2. DYNAMOMETER MARKET, BY REGION
4.3. ASIA PACIFIC: DYNAMOMETER MARKET, BY END-USE INDUSTRY AND COUNTRY, 2021
4.4. DYNAMOMETER MARKET, BY PRODUCT TYPE
4.5. DYNAMOMETER MARKET, BY POWER
4.6. DYNAMOMETER MARKET, BY TORQUE
4.7. DYNAMOMETER MARKET, BY END-USE INDUSTRY
5. MARKET OVERVIEW
5.1. INTRODUCTION
5.1.1. MARKET DYNAMICS
5.1.2. DRIVERS
5.1.3. RESTRAINTS
5.1.4. OPPORTUNITIES
5.1.5. CHALLENGES
5.2. TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS
5.3. PRICING ANALYSIS
5.3.1. AVERAGE SELLING PRICE OF DYNAMOMETERS OFFERED BY KEY PLAYERS
5.3.2. AVERAGE SELLING PRICE TREND, BY PRODUCT TYPE
5.4. VALUE/SUPPLY CHAIN ANALYSIS
5.5. TECHNOLOGY ANALYSIS
5.6. KEY CONFERENCES & EVENTS IN 2022-2023
5.7. MARKET MAP
5.8. PATENT ANALYSIS
5.9. TRADE ANALYSIS
5.10. CASE STUDY ANALYSIS
5.11. TARIFFS, CODES & REGULATIONS
5.11.1. REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
5.12. PORTER’S FIVE FORCE ANALYSIS
5.13. KEY STAKEHOLDERS & BUYING CRITERIA
5.13.1. KEY STAKEHOLDERS IN THE BUYING PROCESS
5.13.2. BUYING CRITERIA
6. DYNAMOMETER MARKET, BY PRODUCT TYPE
(Value (USD Million) -2020, 2021 2022-e, 2027-f)
6.1. INTRODUCTION
6.2. POWER ABSORPTION DYNAMOMETERS
6.2.1. ROPE BRAKE DYNAMOMETER
6.2.2. PRONY BRAKE DYNAMOMETER
6.2.3. HYDRAULIC DYNAMOMETERS
6.2.4. EDDY CURRENT DYNAMOMETER
6.3. POWER TRANSMISSION DYNAMOMETERS
6.3.1. EPICYCLICAL TRAIN DYNAMOMETER
6.3.2. BELT TRANSMISSION DYNAMOMETER
6.3.3. TORISON DYNAMOMETER
7. DYNAMOMETER MARKET, BY POWER
(Value (USD Million) -2020, 2021 2022-e, 2027-f)
7.1. INTRODUCTION
7.2. UP TO 700 KW
7.3. 701–8,000 KW
7.4. ABOVE 8,000 KW
8. DYNAMOMETER MARKET, BY TORQUE
(Value (USD Million) -2020, 2021 2022-e, 2027-f)
8.1. INTRODUCTION
8.2. UP TO 1,000 NM
8.3. 1,001–5,000 N
8.4. ABOVE 5,000 N
9. DYNAMOMETER MARKET, BY END-USE INDUSTRY
(Value (USD Million) - 2020, 2021, 2022-e, 2027-f)
9.1. INTRODUCTION
9.2. MARINE
9.3. OIL & GAS
9.4. MINING & METALS
9.5. POWER GENERATION
9.6. CHEMICALS & PETROCHEMICALS
9.7. FOOD & BEVERAGE
9.8. AUTOMOTIVE
9.9. AEROSPACE & DEFENSE
9.10. WATER & WASTEWATER TREATMENT
9.11. OTHERS (CONSTRUCTION, AND TRANSPORTATION)
10. DYNAMOMETER MARKET, BY REGION
(Value (USD Million), Volume (Units) - 2020, 2021, 2022-e, 2027-f)
10.1. INTRODUCTION
10.2. ASIA PACIFIC
10.2.1. BY PRODUCT TYPE
10.2.2. BY POWER
10.2.3. BY TORQUE
10.2.4. BY END-USE INDUSTRY
10.2.5. BY COUNTRY
10.2.5.1. China
10.2.5.1.1. By end-use industry
10.2.5.2. India
10.2.5.3. Australia
10.2.5.4. Japan
10.2.5.5. Rest of Asia Pacific
10.3. NORTH AMERICA
10.3.1. BY PRODUCT TYPE
10.3.2. BY POWER
10.3.3. BY TORQUE
10.3.4. BY END-USE INDUSTRY
10.3.5. BY COUNTRY
10.3.5.1. US
10.3.5.1.1. By end-use industry
10.3.5.2. Canada
10.3.5.3. Mexico
10.4. EUROPE
10.4.1. BY PRODUCT TYPE
10.4.2. BY POWER
10.4.3. BY TORQUE
10.4.4. BY END-USE INDUSTRY
10.4.5. BY COUNTRY
10.4.5.1. UK
10.4.5.1.1. By end-use industry
10.4.5.2. Germany
10.4.5.3. Italy
10.4.5.4. France
10.4.5.5. Rest of Europe
10.5. SOUTH AMERICA
10.5.1. BY PRODUCT TYPE
10.5.2. BY POWER
10.5.3. BY TORQUE
10.5.4. BY END-USE INDUSTRY
10.5.5. BY COUNTRY
10.5.5.1. Brazil
10.5.5.1.1. By end-use industry
10.5.5.2. Argentina
10.5.5.3. Rest of South America
10.6. MIDDLE EAST & AFRICA
10.6.1. BY PRODUCT TYPE
10.6.2. BY POWER
10.6.3. BY TORQUE
10.6.4. BY END-USE INDUSTRY
10.6.5. BY COUNTRY
10.6.5.1. Saudi Arabia
10.6.5.1.1. By end-use industry
10.6.5.2. UAE
10.6.5.3. South Africa
10.6.5.4. Rest of Middle East & Africa
11. COMPETITIVE LANDSCAPE
11.1. KEY PLAYER STRATEGIES
11.2. COMPETITIVE SCENARIOS AND TRENDS
11.3. RECENT MARKET DEVELOPMENTS
11.4. MARKET SHARE (BY REVENUE), 2021
11.5. REVENUE ANALYSIS OF TOP 5 PLAYERS, 2021
11.6. COMPANY EVALUATION QUADRANT
11.6.1. STAR
11.6.2. PERVASIVE
11.6.3. EMERGING LEADER
11.6.4. PARTICIPANT
11.7. START-UP/SME EVALUATION QUADRANT
11.7.1. DYNAMIC COMPANY
11.7.2. RESPONSIVE COMPANY
11.7.3. PROGRESSIVE COMPANY
11.7.4. STARTING BLOCK
11.7.5. COMPETITIVE BENCHMARKING
11.8. DYNAMOMETER MARKET: COMPANY FOOTPRINT
12. COMPANY PROFILES
12.1. AMETEK
12.1.1. Business Overview
12.1.2. Products Offered
12.1.3. Recent Developments
12.1.4. MnM view
12.1.4.1. Key strategies/right to win
12.1.4.2. Strategic choices made
12.1.4.3. Weaknesses and competitive threats
12.2. POWER TEST, LLC
12.3. FROUDE
12.4. SAKOR TECHNOLOGIES
12.5. PHOENIX DYNAMOMETER TECHNOLOGIES
12.6. DYNAMIC MEASUREMENT SYSTEMS
12.7. GALCO INDUSTRIAL ELECTRONICS
12.8. MUSTANG DYNAMOMETER
12.9. DYNAMOMETER WORLD LTD
12.10. DYNOCOM INUSTRIES
12.11. DYNO DYNAMICS
12.12. TAYLOR DYNAMOMETER
12.13. AW DYNAMOMETER INC.
12.14. R.D. JACOBS COMPANY
12.15. SUPERFLOW DYNAMOMETERS & FLOWBENCHES
12.16. JIANGSU LANMEC ELECTROMECHANICAL TECHNOLOGY CO., LTD.
12.17. CAMA (LUOYANG) ELECTROMECHANIC CO., LTD.
12.18. HUMANETICS GROUP
12.19. MAGTROL
12.20. KAHN & COMPANY, INC
13. APPENDIX
13.1. INSIGHTS OF INDUSTRY EXPERTS
13.2. DISCUSSION GUIDE
13.3. KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
13.4. CUSTOMIZATION OPTIONS
13.5. RELATED REPORTS
13.6. AUTHOR DETAILS
Note: e-Estimated, f-Forecast
• THIS IS A TENTATIVE LIST OF COMPANIES. ADDITIONAL COUNTRIES & COMPANIES MAY BE ADDED/UPDATED DURING THE COURSE OF THE STUDY
• DETAILS ON COMPANY OVERVIEW, FINANCIALS, PRODUCT & SERVICES, STRATEGY, AND DEVELOPMENTS MIGHT NOT BE CAPTURED IN CASE OF UNLISTED COMPANIES
Growth opportunities and latent adjacency in Dynamometer Market