Waste heat

Global Waste Heat Recovery Market 2019-2023 | Evolving Opportunities with ABB & Clean Energy Technologies, Inc. | Technavio

Retrieved on: 
Friday, October 11, 2019
Utilities, Environment, Alternative energy, Energy, Engineering, Manufacturing, Energy, Articles, Universe, Energy recovery, Energy conversion, Energy conservation, Renewable energy, Low-energy building, Waste heat, Heat recovery ventilation, Heat exchanger

View the full release here: https://www.businesswire.com/news/home/20191011005230/en/

Key Points: 
  • View the full release here: https://www.businesswire.com/news/home/20191011005230/en/
    Technavio has announced its latest market research report titled global waste heat recovery market 2019-2023.
  • Also, the advent of new technologies for waste heat recovery is anticipated to further boost the growth of the waste heat recovery market.
  • However, the heat generated from the exhaust of these industries can be put to use by waste heat recovery systems as these systems help in converting large amounts of heat into electricity.
  • Clean Energy Technologies, Inc provides clean energy and environmentally sustainable technology solutions to companies by offering heat recovery solutions products.

Visiongain Publishes Global Waste Heat Boiler Market 2019-2029 Report

Retrieved on: 
Wednesday, August 28, 2019
Articles, Energy, Universe, Energy conversion, Heating, ventilating, and air conditioning, Renewable energy, Plumbing, Heat exchangers, Waste heat recovery unit, Boiler, Cogeneration, Waste heat

These boilers use the heat in flue gases from combustion processes or hot waste air flows from industrial processes to form hot water or saturated steam.

Key Points: 
  • These boilers use the heat in flue gases from combustion processes or hot waste air flows from industrial processes to form hot water or saturated steam.
  • This energy exists in the form of heat and can be captured for cogeneration in a combined heat & power plant.
  • This high temperature of this heat and flow makes it well suited for utilization in a waste heat boiler.
  • In September 2018, South Korea based Ssangyong Cement launched the world's largest waste heat recovery unit at its Donghae plant in Gangwon, South Korea.

Visiongain Publishes Global Waste Heat Boiler Market 2019-2029 Report

Retrieved on: 
Wednesday, August 28, 2019
Articles, Energy, Universe, Energy conversion, Heating, ventilating, and air conditioning, Renewable energy, Plumbing, Heat exchangers, Waste heat recovery unit, Boiler, Cogeneration, Waste heat

These boilers use the heat in flue gases from combustion processes or hot waste air flows from industrial processes to form hot water or saturated steam.

Key Points: 
  • These boilers use the heat in flue gases from combustion processes or hot waste air flows from industrial processes to form hot water or saturated steam.
  • This energy exists in the form of heat and can be captured for cogeneration in a combined heat & power plant.
  • This high temperature of this heat and flow makes it well suited for utilization in a waste heat boiler.
  • In September 2018, South Korea based Ssangyong Cement launched the world's largest waste heat recovery unit at its Donghae plant in Gangwon, South Korea.

Global Waste Heat Recovery Market 2019-2023| Advent of Technologies for Waste Heat Recovery to Boost Growth| Technavio

Retrieved on: 
Monday, April 22, 2019
Environment, Energy, Articles, Universe, Energy recovery, Heat transfer, Renewable energy, Energy conversion, Thermodynamics, Waste heat, Waste, Heat recovery ventilation

This global waste heat recovery market research report also analyzes other important trends and market drivers that will affect market growth over 2019-2023.

Key Points: 
  • This global waste heat recovery market research report also analyzes other important trends and market drivers that will affect market growth over 2019-2023.
  • Global waste heat recovery market: Advent of technologies for waste heat recovery
    Currently, several new technologies are emerging for improving the performance of the existing systems or advancing waste heat recovery.
  • Apart from the advent of technologies for waste heat recovery, the rise in industrialization in BRICS, the increase in energy cost, the rise in the use of waste heat recovery systems in combustion engine, and the emergence of direct waste heat recovery using thermoelectric materials are some other major factors that are expected to contribute largely towards the growth of the global waste heat recovery market, says a senior analyst at Technavio.
  • Global waste heat recovery market: Segmentation analysis
    This market research report segments the global waste heat recovery market by end-user (chemical, petroleum refining, paper, commercial and institutional, food and beverages, metals, and others) and geographical regions (North America, Europe, APAC, MEA, and South America).

Global Waste Heat Recovery Market (2019-2023) to Post a CAGR of Over 6% During the Forecast Period -- Rise in industrialization in BRICS - ResearchAndMarkets.com

Retrieved on: 
Thursday, April 18, 2019
Manufacturing, Other Manufacturing, Energy, Articles, Universe, Energy recovery, Energy conversion, Energy conservation, Renewable energy, Thermodynamics, Waste heat, Waste, Electronic waste, Heat recovery ventilation

The "Global Waste Heat Recovery Market 2019-2023" report has been added to ResearchAndMarkets.com's offering.

Key Points: 
  • The "Global Waste Heat Recovery Market 2019-2023" report has been added to ResearchAndMarkets.com's offering.
  • The waste heat recovery market will register a CAGR of over 6% by 2023.
  • One of the growth drivers of the global waste heat recovery market is the rise in industrialization in BRICS.
  • One of the challenges in the growth of the global waste heat recovery market is the high implementation cost of waste heat recovery system.

Another Successful Implementation Of CETY's Waste Heat Generator

Retrieved on: 
Tuesday, February 26, 2019
Energy, Articles, Universe, Renewable energy, Energy conversion, Sustainable technologies, Heat transfer, Biofuels, Waste heat, Electric generator, Anaerobic digestion, Jenbacher

Woolwich is an anaerobic digestor power plant that utilizes two Jenbacher JGC420 generators to produce 1426 kW of electricity each, and, as a by-product, these generators give off waste heat.

Key Points: 
  • Woolwich is an anaerobic digestor power plant that utilizes two Jenbacher JGC420 generators to produce 1426 kW of electricity each, and, as a by-product, these generators give off waste heat.
  • CETY's Organic Rankine Cycle Generator Clean Cycle IITM is ideal for capturing heat from a large range of sources to produce substantial amounts of electricity.
  • The result will be essentially "free" power as all the heat that is currently being ejected to the atmosphere is utilized by Clean Cycle IITM generator.
  • The Department of Energy claims CHP (Combined Heat to Power) heat recovery systems for under 500kW represent220,000 systems.

MTPV Power Corporation Secures $16M in Series C Financing

Retrieved on: 
Tuesday, October 2, 2018
Energy, Universe, Nature, Energy conversion, Waste heat, Sustainable energy, Light-emitting diode, Solar panel, Energy technology

AUSTIN, Texas and BOSTON, Oct. 2, 2018 /PRNewswire-PRWeb/ --MTPV Power Corporation ( https://www.mtpv.com/ ), a clean energy company that converts heat to electricity using semiconductor chips, announced today that it raised $16 million in a Series C financing.

Key Points: 
  • AUSTIN, Texas and BOSTON, Oct. 2, 2018 /PRNewswire-PRWeb/ --MTPV Power Corporation ( https://www.mtpv.com/ ), a clean energy company that converts heat to electricity using semiconductor chips, announced today that it raised $16 million in a Series C financing.
  • The financing was led by Lake Bridge Capital, an early stage investor in transformational companies with unique and proprietary technologies.
  • MTPV, who recently received Frost & Sullivan's Global Technology Leadership Award for waste heat recovery solutions, creates semiconductor chips that convert heat directly into electricity.
  • Similar to a solar panel that converts sunlight into electricity, MTPV chips are able to convert any source of heat into electricity with breakthrough efficiency and power.

Converting Waste Heat into Electrical Energy: BorgWarner's Organic Rankine Cycle

Retrieved on: 
Thursday, September 13, 2018
Energy, Universe, Nature, Energy recovery, Energy conversion, Renewable energy, Mechanical engineering, Turbines, Waste heat recovery unit, Waste heat, Turboexpander, Heat recovery ventilation

"By converting wasted exhaust heat into usable electrical energy, we support our customers and protect the environment at the same time."

Key Points: 
  • "By converting wasted exhaust heat into usable electrical energy, we support our customers and protect the environment at the same time."
  • BorgWarner's ORC waste heat recovery system generates electrical energy by converting energy from the fuel that would be typically wasted as heat.
  • Then, waste heat from the engine heats the working fluid to a superheated vapor, which in turn drives the turbine expander and generates electrical power.
  • The exhaust bypass valve provides a valuable method for controlling the amount of heat entering the waste heat recovery system from the tailpipe exhaust system.

MTPV Power Corporation Accepts Frost & Sullivan Global Technology Leadership Award for Waste Heat Recovery Solutions

Retrieved on: 
Thursday, August 2, 2018
Energy, Universe, Nature, Energy conversion, Energy recovery, Sustainable technologies, Energy economics, Renewable energy, Waste heat recovery unit, Waste heat, Sustainable energy, Energy technology

AUSTIN, Texas and BOSTON, Aug. 2, 2018 /PRNewswire-PRWeb/ -- MTPV Power Corporation ( https://www.mtpv.com ), a clean energy company that coverts heat to electricity using semiconductor chips, accepted Frost & Sullivan's Global Technology Leadership Award for waste heat recovery solutions at Frost & Sullivan's Excellence in Best Practices Awards Gala on July 18th in Nashville, Tennessee.

Key Points: 
  • AUSTIN, Texas and BOSTON, Aug. 2, 2018 /PRNewswire-PRWeb/ -- MTPV Power Corporation ( https://www.mtpv.com ), a clean energy company that coverts heat to electricity using semiconductor chips, accepted Frost & Sullivan's Global Technology Leadership Award for waste heat recovery solutions at Frost & Sullivan's Excellence in Best Practices Awards Gala on July 18th in Nashville, Tennessee.
  • Each year, Frost & Sullivan presents the Technology Leadership Award to the company that demonstrates uniqueness in developing and leveraging new technologies that deliver significant customer value.
  • "MTPV has revolutionized the waste heat recovery market by introducing its core technology, micron-gap thermophotovoltaics, into its EBLADE Power Platform, which converts waste heat directly into electricity and provides end users with energy savings, emissions reductions, and clean, reliable power generation," said Chirag Rathi, Consulting Director at Frost & Sullivan.
  • "MTPV is honored to receive Frost & Sullivan's Global Technology Leadership Award for waste heat recovery solutions on behalf of our dedicated team of engineers and innovators," said David Mather, President & CEO of MTPV Power Corporation.

InventHelp Inventor Develops Soda Ash Converter System (BTM-2512)

Retrieved on: 
Tuesday, July 3, 2018
Energy, Universe, Nature, Energy recovery, Energy conversion, Heat transfer, Energy conservation, Thermodynamics, Waste heat, Soda, Sodium carbonate, Heat recovery ventilation

PITTSBURGH, July 3, 2018 /PRNewswire/ -- An inventor from Ranson, W.V., has developed the WASTE HEAT RECOVERY, a waste heat recovery system for use in the soda ash manufacturing industry.

Key Points: 
  • PITTSBURGH, July 3, 2018 /PRNewswire/ -- An inventor from Ranson, W.V., has developed the WASTE HEAT RECOVERY, a waste heat recovery system for use in the soda ash manufacturing industry.
  • "As a chemical engineer, I see this concept already being used in other applications, so I figured it would also work in the soda ash industry," said the inventor.
  • The WASTE HEAT RECOVERY converts waste heat that would otherwise be allowed to dissipate into the atmosphere.
  • This will help produce additional profits from an existing soda ash process.