Search results for " waste heat"

showing 5 items of 15 documents

Performance of a RED system with ammonium hydrogen carbonate solutions

2016

The use of closed-loop salinity gradient power (SGP) technologies has been recently presented as a viable option to generate power using low-grade heat, by coupling a SGP unit with a thermally-driven regeneration process in a closed loop where artificial solutions can be adopted for the conversion of heat into power. Among these, the closed-loop reverse electrodialysis (RED) process presents a number of advantages such as the direct production of electricity, the extreme flexibility in operating conditions and the recently demonstrated large potentials for industrial scale-up. Ammonium hydrogen carbonate (NH4HCO3) is a salt suitable for such closed-loop RED process thanks to its particular …

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/25 - Impianti ChimiciMechanical engineeringSalt (chemistry)Ocean Engineering02 engineering and technology010501 environmental sciences7. Clean energy01 natural sciencesHeat-to-powerPhase (matter)Waste heatReversed electrodialysisReverse electrodialysiOsmotic powerSalinity gradient powerProcess engineeringAmmonium hydrogen carbonate0105 earth and related environmental sciencesWater Science and Technologychemistry.chemical_classificationSettore ING-IND/24 - Principi Di Ingegneria Chimicabusiness.industry021001 nanoscience & nanotechnologyPollution6. Clean waterPower (physics)Reverse Electrodialysis Salinity Gradient Power SGP heat engine Waste heat Ammonium hydrogen carbonateElectricity generationchemistryScientific method0210 nano-technologybusinessAmmonium hydrogen carbonate; Heat engine; Heat-to-power; Reverse electrodialysis; Salinity gradient powerHeat engine
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Reverse electrodialysis with NH4HCO3-water systems for heat-to-power conversion

2017

Abstract A Reverse ElectroDialysis Heat Engine (REDHE) system operating with “thermolytic” ammonium hydrogen-carbonate (NH4HCO3) aqueous solutions as working fluids is studied. The engine is constituted by (i) a RED unit to produce electric power by mixing the solutions at different salinity and (ii) a thermally-driven regeneration unit including a stripping and an absorption column to restore the initial salinity gradient thus closing the cycle. In the present work only the RED unit and the stripping column are taken into account. In particular, a simplified integrated process model for the whole cycle was developed: it consists of (i) a lumped parameter model for the RED unit validated wi…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciStripping (chemistry)Salinity gradient power (SGP)020209 energyAnalytical chemistry02 engineering and technology7. Clean energyThermolytic saltIndustrial and Manufacturing EngineeringWaste heat recovery unitReversed electrodialysisThermal0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringClosed-loop reverse electrodialysiWaste heat recoveryAmmonium hydrogen carbonateCivil and Structural EngineeringPower densityHeat engineWaste managementChemistryMechanical EngineeringAmmonium hydrogen carbonate; Closed-loop reverse electrodialysis; Reverse ElectroDialysis Heat Engine (REDHE); Salinity gradient power (SGP); Thermolytic salts; Waste heat recovery; Civil and Structural Engineering; Building and Construction; Pollution; Energy (all); Mechanical Engineering; Industrial and Manufacturing Engineering; Electrical and Electronic EngineeringBuilding and ConstructionElectrodialysis021001 nanoscience & nanotechnologyPollution6. Clean waterEnergy (all)General EnergyReverse ElectroDialysis Heat Engine (REDHE)Electric power0210 nano-technology
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Sustainable and cost-efficient energy supply and utilisation through innovative concepts and technologies at regional, urban and single-user scales

2019

Abstract The environmental impact of the energy sector and the security and economics of energy supply and utilisation have been raising increasing concerns, stimulating the search for innovative solutions for a sustainable use of resources. This article provides an overview of published research in this area, with a focus on papers contributed in special issues of leading journals dedicated to the series of Conferences on Sustainable Development of Energy, Water and Environment Systems (SDEWES), including the articles in the current special issue. Based on this review, research trends are identified and achievements supporting the energy transition are highlighted. The studies that focused…

Sustainable heatingLow-energy buildings020209 energy02 engineering and technologyEnergy transitionRenewable energy sourcesIndustrial and Manufacturing Engineering020401 chemical engineeringSettore ING-IND/10 - Fisica Tecnica Industriale0202 electrical engineering electronic engineering information engineeringEnergy supply0204 chemical engineeringElectrical and Electronic EngineeringWaste heat recoveryCivil and Structural EngineeringFlexibility (engineering)Sustainable developmentSustainability cost heat electricity technologiesSDEWESMulti-generationbusiness.industryMechanical EngineeringBuilding and ConstructionEnergy planningEnvironmental economicsPollutionRenewable energyGeneral EnergyRenewable energy sources ; Sustainable heating ; Low-energy buildings ; Multi-generation ; Waste heat recovery ; SDEWESSustainabilityBusinessEfficient energy use
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Thermally Regenerative Ammonia Batteries for Waste-Heat Exploitation

2018

It is widely accepted that one of the most important issue to be faced by the scientific community is how to sustain the modern way of living and the related energy demand. While a long term target is the transition to a full-renewable energy system, a closer exigency is the optimization of the processes already existing. It has been calculated that about 370.41 TWh of potential energy is annually lost in Europe in the form of waste-heat from the industrial sector [1]. Waste heat comprises all the thermal energy with a temperature below 130 °C [2] (or 300 °C [1]), that hardly can find a useful application with the state of the art industrial technologies. Indeed, electrochemical technologie…

TRAB Thermally regenerative ammonia battery copper ammonia complex regeneration waste heatSettore ING-IND/27 - Chimica Industriale E Tecnologica
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Thermolytic reverse electrodialysis heat engine: model development, integration and performance analysis

2019

Abstract Salinity gradient heat engines represent an innovative and promising way to convert low-grade heat into electricity by employing salinity gradient technology in a closed-loop configuration. Among the aqueous solutions which can be used as working fluid, ammonium bicarbonate-water solutions appear very promising due to their capability to decompose at low temperature. In this work, an experimentally validated model for a reverse electrodialysis heat engine fed with ammonium bicarbonate-water solutions was developed. The model consists of two validated sub-models purposely integrated, one for the reverse electrodialysis unit and the other for the stripping/absorption regeneration uni…

Work (thermodynamics)Absorption (acoustics)Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciMaterials science020209 energySettore ING-IND/25 - Impianti ChimiciEnergy Engineering and Power Technology02 engineering and technology7. Clean energyStripping (fiber)020401 chemical engineeringReversed electrodialysis0202 electrical engineering electronic engineering information engineering0204 chemical engineeringProcess engineeringHeat engineThermolytic salts Salinity gradient heat engine Regeneration unit Reverse electrodialysis Ammonium bicarbonate solutions Waste heat recoveryRenewable Energy Sustainability and the Environmentbusiness.industry6. Clean waterFuel TechnologyMembraneNuclear Energy and EngineeringExergy efficiencyWorking fluidbusinessEnergy Conversion and Management
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