How does it work? Have a look, including a quick tour of a Canadian project where the technology drives down emissions and preserves more usable energy. There are many industrial processes that ...

For heat recovery to be cost effective, it is essential for processes to be well coordinated and the cooling water discharge temperature needed for the process must be reached. Examples for use of ...

Heat recovery systems can be divided into two categories based on the thermal parameters of the system: Systems for energy recovery and conversion from waste heat with high thermal parameters (above ...

A while back, I addressed the energy savings potentials behind a drain waste heat recovery heat exchanger. It has the potential of reducing energy consumption of residential applications by as much as ...

The proposed system uses waste heat by thermally coupling a water lithium bromide absorption heat transformer with a water vapor compression heat pump. It reportedly achieved a temperature elevation ...

Systems that extract waste heat from industrial processes and use it generate electric power now employ chemical-electromechanical technology. A recent report from Global Marketing Insights brings to ...

Researchers have unveiled a new loop heat pipe capable of transporting up to 10 kW of heat without using electric power. The loop heat pipe's design aims to contribute to energy savings and carbon ...

Many traditional industrial processes generate heat that is normally released into the atmosphere but which could be reused. In production processes such as smelting, iron and steel, paper or cement, ...

Fuel-agnostic and suitable for newbuilds and retrofit, Organic Rankine Cycle waste heat recovery systems are making headway as an energy-efficiency measure. Market prospects are looking so good for ...

The next generation of heavy-duty diesel engine design is driven by the U.S. Environmental Protection Agency’s greenhouse gas emissions regulations that limit the amount of carbon dioxide and other ...