Add to ORKG\ua9 2018 Elsevier Ltd A novel resorption cycle with internal heat recovery process is proposed, which is expected to further explore potentials of power and refrigeration cogeneration. Two sets of basic resorption refrigeration cycles are adopted, which are integrated with turbine/expander to realize quasi-continuous output in both half cycles. An improved cogeneration efficiency could be obtained with safety feature. Different ammonia composite sorbents with better heat and mass transfer performance are selected to investigate the overall performance when heat source temperature is in the range from 200 \ub0C to 360 \ub0C. It is indicated that energy efficiency for power generation is able to reach up to 0.263 at 360 \ub0C heat source tem...
Due to relatively high energy consumption of absorption technology, adsorption carbon dioxide captur...
An experimental intermittent thermochemical refrigeration system using strontium chloride (SrCl2)–...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...
The paper proposed an optimised resorption cogeneration with a stabilisation unit and effective mass...
The integration of chemisorption cycle with turbine/expander opens up enormous opportunities of reco...
PhD ThesisHeat-driven energy system attracts ever increasing attentions to improve the efficiency of...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
Development of innovative thermodynamic cycles is important for the efficient utilization of low-tem...
AbstractA novel integration of chemisorption refrigeration cycle and a scroll expander was investiga...
This work takes an empirical and evidence-based approach in the development of a resorption thermal ...
Expanded natural graphite and carbon coated nickel are selected as the additives in the development ...
Ammonia/water absorption chillers are driven by low-grade heat and cover wide refrigeration temperat...
PhD ThesisCogeneration is a hot topic in the efforts to reduce dependence on fossil fuel usage and t...
Innovative modular sorption and resorption thermal cell are presented for cold and heat cogeneration...
AbstractThe present work for the first time explores the possibility of a small-scale cogeneration u...
Due to relatively high energy consumption of absorption technology, adsorption carbon dioxide captur...
An experimental intermittent thermochemical refrigeration system using strontium chloride (SrCl2)–...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...
The paper proposed an optimised resorption cogeneration with a stabilisation unit and effective mass...
The integration of chemisorption cycle with turbine/expander opens up enormous opportunities of reco...
PhD ThesisHeat-driven energy system attracts ever increasing attentions to improve the efficiency of...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
Development of innovative thermodynamic cycles is important for the efficient utilization of low-tem...
AbstractA novel integration of chemisorption refrigeration cycle and a scroll expander was investiga...
This work takes an empirical and evidence-based approach in the development of a resorption thermal ...
Expanded natural graphite and carbon coated nickel are selected as the additives in the development ...
Ammonia/water absorption chillers are driven by low-grade heat and cover wide refrigeration temperat...
PhD ThesisCogeneration is a hot topic in the efforts to reduce dependence on fossil fuel usage and t...
Innovative modular sorption and resorption thermal cell are presented for cold and heat cogeneration...
AbstractThe present work for the first time explores the possibility of a small-scale cogeneration u...
Due to relatively high energy consumption of absorption technology, adsorption carbon dioxide captur...
An experimental intermittent thermochemical refrigeration system using strontium chloride (SrCl2)–...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...