Abstract Low-grade thermal energy (< 100° C) is ubiquitous in nature and human activities,
and its enormous reserves and renewability make it significant to convert it into electricity …

The development of a low-cost and high-performance thermally regenerative battery is an
extremely effective way for waste heat recovery. In this work, a membrane-free thermally …

Thermally regenerative ammonia batteries (TRABs) use low-temperature (T< 100° C) heat to
provide stationary energy and power with higher power densities and efficiency relative to …

Abstract Low-temperature heat (T< 130° C) can be utilized by thermally regenerative
batteries (TRBs) for power production, allowing the thermal energy to be converted to …

Thermally regenerative ammonia-based batteries (TRABs) are promising for harvesting low-
grade waste heat and their performance is seriously limited by the general phenomenon of …

Considering the future practical application, a 3D electrode composed of copper rod arrays
was proposed for the scale-up of a thermally regenerative ammonia-based battery (TRAB) …

Abstract Low-temperature geothermal energy (< 150° C) is an abundant green renewable
energy and non-aqueous thermally regenerative flow batteries hold immense potential for …

The discovery of nanoparticles with varied size, shape and composition has stretched the
limits of nanotechnology in almost any field. One of the important areas of interest is the use …

A multi-scale coupling method based on the unit heat transfer model is proposed to simulate
the flow heat transfer performance of a heat exchanger, in view of the complex structure of …

Low temperature thermal energy is an abundant and untapped energy source for large
scale electrical power and energy production around the world. Many different stationary …