These systems store excess heat generated during periods of low demand and release it when needed. They can help balance supply and demand in heating systems, particularly when paired with intermittent renewable energy sources. The electrification of heat is a critical component in the transition to a low-carbon economy, as it allows for heating systems to utilise renewable electricity instead of fossil fuels. This strategy encompasses the use of electric heat pumps, electric boilers, and other technologies that leverage electrical energy.                                                                                                                                                                                                                                            The field of heat batteries is attracting significant interest from both investors and industries seeking sustainable energy solutions. Many of these companies focus on integrating advanced materials and innovative designs to enhance the efficiency and capabilities of thermal energy storage systems. This trend is likely to continue as demand for energy storage solutions grows in response to the increased use of renewable energy sources and the need for energy efficiency and cost reduction in heating applications. 
 
Improving energy efficiency in industrial heat processes is crucial for reducing costs, minimising environmental impact, and enhancing overall sustainability. An estimated 20%  of global carbon emissions are caused by industrial heat. That’s as much as all of transportation combined. Energy efficiency is crucial in reducing these emissions by incorporating strategies and technologies to lower energy consumption and greenhouse gas emissions. Green Steam helps industrial facilities significantly reduce emissions and turn clean energy into a competitive advantage, generating profits from decarbonising industrial process heat. Heat Retention Technology breakthroughs, such as thermal storage systems, are used to store surplus heat for later use.  Electrification with renewables & electric boilers makes the economics work on the investment within two to three years.   


New Financial Model - TESA 

PPA (Power Purchase Agreement) lead the way with renewables projects, mainly solar projects.  Industrial Heat - Green Steam can be set up as a service agreement and the platform Thermal Energy Services Agreement (TESA). Now, manufacturers have the option of energy-as-a-service pioneering GREEN steam generation. Most manufacturers are in hard-to-decarbonize industries to reduce onsite CO2 emissions by delivering clean, emissions-free process heat at prices lower than natural gas with no capital expense or process disruption for the manufacturer.  

As businesses worldwide emphasise sustainability and carbon reduction, Energy as a Service (EaaS) is emerging as an essential strategy. This model offers a comprehensive solution to manage energy consumption effectively, reduce costs, and optimise environmental sustainability. According to a recent analysis by Fortune Business Insights, the EaaS market is on a robust growth trajectory, with projections suggesting it could reach approximately USD 147.56 billion by 2029. This expansion is fueled by increasing demand for renewable energy and the financial benefits of reduced operational expenses and carbon emissions.

Optimized Energy Efficiency and Renewable Energy Utilization

EaaS providers leverage cutting-edge technologies to enhance energy efficiency and fine-tune consumption patterns across electricity, steam, chilled water, and industrial heat. This leads to a significant reduction in greenhouse gas emissions while minimising the carbon footprint of businesses.

EaaS often integrates renewable energy sources like solar panels and wind turbines, enabling companies to shift towards more sustainable energy solutions and further diminish their environmental impact. By optimising energy efficiency and incorporating renewable energy across multiple energy domains, EaaS contributes to a holistic approach to sustainability.

Creating a thermal battery specialised to meet industrial heating demands for several vertical markets 10+ 

J Lyons Marketing Agency is fast becoming the global leader in heat batteries with the development of  “Green Steam.”


fortune 500 firm coverage:

pet food


food brands


bakery


beverage


snack food


potato (french fries)


confectionary


FRUIT JUICE


SPIRITS


beer


dairy


baby formula


beef & poultry processing


SUGARCANE PRODUCERS


companies under agreement


 

GRAPHITE ENERGY

420 Elizabeth St, Surry Hills, NSW 2010 Australia

GREEN STEAM

A new advanced battery chemistry requires a “unique” graphite as a thermal battery for manufacturing steam processes for in-house use.  This is a green steam value proposition by an innovative thermal battery — a game changer. 

GLOBAL PROPOSITION DOCUMENT


 

KRAFTBLOCK    

Gmbh   www.kraftblock.com   
Industriestraße 8 / 66280 Sulzbach / Germany

Kraftblock is design is complementary to thermal battery works on higher temperatures up to 1300°F and starting at 20 MW - 50MW + ( modular design ) 

Kraftblock’s innovative technology offers unparalleled large-scale, long-duration energy storage, empowering industries to transition towards sustainable thermal processes.  

  • The Kraftblock container charges heat and can use different energy sources 

  • Heat up to 1,300°C is stored in the Kraftblock container for up to two weeks

  • The discharged energy is used at any temperature level to generate power, decarbonise heating networks or process heat.

Net-Zero Heat System 

  • Replace fossil fuels by utilizing renewable electricity as heat for flexible heat generation.

  • Waste Heat Recycling System 

  • Decarbonize industrial processes by reusing waste heat that was previously vented into the atmosphere.

  • Power Generation System 

  • Generate sustainable electricity by utilizing surplus heat or store and reconvert excess power.


    kraftblock introduction

    global value proposition