Industrial Processes: Decarbonization & Energy efficiency

Logo
Presented by

Amr Rizk | Honeywell Offering Manager, Industrial Processes, Rossen Ivanov | Armstrong International

About this talk

Decarbonization & Energy efficiency in the industry are two hot topics today that sit on the desk of every Chief executice today. There are multiple measures that can be taken to minimize the exposure to fossil within the supply chain and within the process. Waste heat recovery is where we do a deep dive and discuss in detail how heat pumps can be utilized in different industrial sectors to harness the low grade waste heat and transform that to back to the process in form useful energy in the form of hot water or steam. We will discuss in details different process applications that can benefit from waste heat recovery and the potential energy savings as well as carbon emissions. Our guest is coming from a Global, family owned business that is in engaged with Fortune 500 industrial companies on different projects to help them reach their net zero ambitions.
Related topics:

More from this channel

Upcoming talks (2)
On-demand talks (6)
Subscribers (854)
The environment is top of mind. Choosing the right technologies now can have a positive impact for decades to come. Discover how Honeywell’s commitment to sustainability and resolve to use the latest science and technology is helping the world decarbonise with Solstice® HFO Refrigerants. Explore the interactive graphic below to learn how Solstice can be used in a wide range of heating and cooling applications. Honeywell believes in solutions that balance environmental protection with economics. Our low-global-warming-potential (GWP) Solstice® hydrofluoroolefin (HFO) refrigerants leverage USD$1 billion of R&D investment and a 117-year track record of innovation to help the heating and cooling industry transition to a low carbon future in a cost-effective manner, without compromising system performance. To date, Solstice refrigerants have helped avoid the potential release of the equivalent of more than 326 million metric tons of carbon dioxide into the atmosphere, equal to the annual carbon emissions of nearly 70 million gasoline-powered passenger vehicles.