Keywords: لیتیوم برومید; Absorption chiller; Lithium bromide; Additives; Numerical;
مقالات ISI لیتیوم برومید (ترجمه نشده)
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Keywords: لیتیوم برومید; Liquid desiccant; Lithium Bromide; Regeneration system; Vacuum; Performance prediction;
Keywords: لیتیوم برومید; Graphite disk heat exchangers; Heat transformer by absorption; Heat transfer coefficient; Saving energy; Lithium bromide;
Keywords: لیتیوم برومید; Dynamic model; Liquid desiccant; Lithium bromide; Regeneration system; Vacuum;
Keywords: لیتیوم برومید; Absorption refrigeration; Ejector; Lithium bromide; Experimental; Multi-heat sources; Economic optimization;
Keywords: لیتیوم برومید; Absorption heat exchanger; Heat exchanger; Heat transfer; Absorption heat pump; Lithium bromide;
Keywords: لیتیوم برومید; Liquid desiccant; Air-conditioning; Multi-stage; Lithium bromide; HVAC; TRNSYS;
Keywords: لیتیوم برومید; CFC; Chloro-Flouro-Carbon; HCFC; Hydro- Chloro-Flouro-Carbon; LiBr; Lithium bromide; DHW; Domestic hot water; ADEREE; Agence Nationale pour le Développement des Energies Renouvelables et de l'Efficacité Energétique; COP; Coefficient of Performance; S
Keywords: لیتیوم برومید; Falling film absorber; Absorption refrigeration; Lithium bromide; Laminar falling film model;
Keywords: لیتیوم برومید; Iron oxide nanoparticles; Lithium bromide; Binary nanofluid; Reverse microemulsions; Ionic media; DLVO theory;
Keywords: لیتیوم برومید; Electrolyte additive; Lithium bromide; Sulfur; Polysulfides; Shell;
Keywords: لیتیوم برومید; AC; Activated carbon; Al2O3; Aluminum oxide; BHTC; Boiling heat transfer coefficient; CHF; Critical heat flux; CNT; Carbon nanotube; CTAB; Cetyl trimethyl ammonium bromide; CTAC; Cetyl trimethyl ammonium chloride; Cu; Copper; CuO; Copper(II) oxide; CO2; C
Keywords: لیتیوم برومید; Ship; Absorption refrigeration; Ammonia; Lithium bromide; Waste heat recovery;
Keywords: لیتیوم برومید; CaCl2; calcium chloride; kgda; kilogram of dry air; Le; Lewis number; LiBr; lithium bromide; LiCl; lithium chloride; MRR; moisture removal rate; MgCl2; magnesium chloride; NTU; number of transfer units; NP; number of paired air and desiccant channel; Nu;
Keywords: لیتیوم برومید; Low-grade waste heat; NCAHT; Ammonia; Lithium bromide;
Keywords: لیتیوم برومید; Lithium bromide; Sodium formate; Liquid desiccant; Absorption refrigeration; Molecular dynamics simulation;
Keywords: لیتیوم برومید; Lithium bromide; Phase transitions; Falling film; Object-oriented modeling; Modelica; Bromure de lithium; Transitions de phase; Film tombant; Modélisation orientée objet; Modelica;
Keywords: لیتیوم برومید; Solubility measurement; Density measurement; Absorption chiller; Lithium bromide; Absorbent mixtureMesure de solubilité; Mesure de densité; Refroidisseur à absorption; Bromure de lithium; Mélange d'absorbant
Keywords: لیتیوم برومید; Lithium-metal battery; Lithium bromide; Dendrite; Liquid electrolyte; Electrodeposition;
Keywords: لیتیوم برومید; Thermal energy storage; Chemical heat pump; Lithium bromide
Keywords: لیتیوم برومید; Thermochemical energy storage; Magnesium hydroxide; Expanded graphite; Lithium bromide; Volumetric heat storage/output performances
Keywords: لیتیوم برومید; Bubble; Absorption; Lithium bromide; Displacement; Mass transfer; Absorber;
Keywords: لیتیوم برومید; Lithium bromide; Solubility in water; Nucleation; Crystallization; Metastable zone;
Keywords: لیتیوم برومید; Absorption heat transformer; Lithium bromide; Falling film; Tube bank; Effective area efficiency of heat exchange; Wetting area; Film thickness
Keywords: لیتیوم برومید; Chemical heat pump; Magnesium oxide; Magnesium hydroxide; Expanded graphite; Lithium bromide;
Keywords: لیتیوم برومید; Pool boiling; Nano-structured surface; Lithium Bromide; Surfactant; Visualization;
Keywords: لیتیوم برومید; Absorption refrigeration system; Membrane-based absorption; Absorption/desorption cycle; Thin film absorption; Lithium bromide
Keywords: لیتیوم برومید; Bubble; Absorption; Lithium bromide; Mass transfer; Heat transfer; Absorber
Keywords: لیتیوم برومید; Absorption cooling/heating system; Falling film absorber; Lithium bromide; Laplace transform solutionsSystème de refroidissement/chauffage à absorption; Absorbeur à film tombant; Bromure de lithium; Solutions de la transformée de Laplace
Isopiestic measurements of thermodynamic properties for the aqueous system LiBr-CaBr2-H2O at 373.15â¯K
Keywords: لیتیوم برومید; Osmotic coefficients; Vapor pressure; Lithium bromide; Calcium bromide; Pitzer thermodynamic model;
The reactivity of lignin carbohydrate complex (LCC) during manufacture of dissolving sulfite pulp from softwood
Keywords: لیتیوم برومید; DMSO; dimethyl sulfoxide; L/W; liquor to wood ratio; LCC; lignin carbohydrate complexes; LC; lignin carbohydrate; LiBr; lithium bromide; NMR; nuclear magnetic resonance; RI; refractive index; SEC; size exclusion chromatography; UV; ultraviolet; GE; gamma
Characterization of the droplet formation phase for the H2OLiBr absorber: An analytical and experimental analysis
Keywords: لیتیوم برومید; Absorption; Adiabatic absorber; Droplet formation; Heat and mass transfer; Lithium bromide;
Hydrogen absorption and lithium ion conductivity in Li6NBr3
Keywords: لیتیوم برومید; Hydrogen storage materials; Lithium nitride; Lithium bromide; Lithium ion conductivity; Powder X-ray diffraction; A.C. impedance spectroscopy
Absorption characteristics of falling film LiBr (lithium bromide) solution over a finned structure
Keywords: لیتیوم برومید; Absorption refrigeration; Lithium bromide; Falling film absorber
Structure-activity relationship studies of pyrimidine-2,4-dione derivatives as potent P2X7 receptor antagonists
Keywords: لیتیوم برومید; P2X7 receptor; Antagonists; KN-62; Structure-activity relationships; IL-1β; Inflammation; AcCl; acetyl chloride; ACN; acetonitrile; ATP; adenosine-5â²-triphosphate; BzATP; 2â²(3â²)-O-(4-benzoylbenzoyl)-ATP; DCM; dichloromethane; DMEM; Dulbecco's Mod
FTIR and quantum chemical study of LiBr solvation in acetonitrile solutions
Keywords: لیتیوم برومید; Lithium bromide; Acetonitrile solution; Solvated complexes; FTIR spectroscopy; Quantum chemical calculations
Technologies for utilization of industrial excess heat: Potentials for energy recovery and CO2 emission reduction
Keywords: لیتیوم برومید; Bio-CHP; bio combined heat and power; CHP; combined heat and power; COP; coefficient of performance; DC; district cooling; DH; district heating; EED; Energy Efficiency Directive; EMS; energy market scenarios; ENPAC; Energy Price and Carbon Balance Scenari
Solar-powered single-and double-effect directly air-cooled LiBr-H2O absorption prototype built as a single unit
Keywords: لیتیوم برومید; Absorption; Lithium bromide; Direct air-cooled; Solar cooling; Single-double effect;
Development of a packed bed regenerative solution heat exchanger (R-SHX) for a single stage LiBr-H2O vapour absorption refrigeration (VAR) system
Keywords: لیتیوم برومید; Lithium bromide; Absorption; Refrigeration; Packed bed; Solution heat exchanger; Regenerator; VAR;
The TbBr3–LiBr binary system: Experimental thermodynamic investigation and assessment of phase diagram
Keywords: لیتیوم برومید; Terbium(III) bromide; Lithium bromide; Enthalpy; Phase diagram; Differential scanning calorimetry; Modelling; Thermodynamic optimisation
Experimental study of a graphite disks absorber couple to a heat transformer
Keywords: لیتیوم برومید; Absorber; Lithium bromide; Tar impregnated graphite disks; Heat transformer
The study of vapor-liquid equilibria of 1-ethyl-3-methyl imidazolium chloride and 1-butyl-3-methyl imidazolium chloride in lithium bromide aqueous solutions and their corresponding binary systems at 298.15Â K.
Keywords: لیتیوم برومید; Ionic liquid; 1-Ethyl-3-methyl imidazolium chloride; 1-Butyl-3-methyl imidazolium chloride; Lithium bromide; Osmotic coefficient;
Thermophysical properties and application of LiNO3–H2O working fluid
Keywords: لیتیوم برومید; Absorption heat pump; Lithium bromide; Lithium nitrate; COPpompe à chaleur à absorption; bromure de lithium; nitrate de lithium; COP
Proposal and validation of a model for the dynamic simulation of a solar-assisted single-stage LiBr/water absorption chiller
Keywords: لیتیوم برومید; Absorption chiller; Lithium bromide; Dynamic performance; Simulation; Experimental resultsRefroidisseur à absorption; Bromure de lithium; Performance dynamique; Simulation; Résultats expérimentaux
Lithium bromide-DBU mediated synthesis of chlorophosphoramidate-activated morpholino nucleoside subunits
Keywords: لیتیوم برومید; Morpholino subunit; Chlorophosphoramidate; Nucleosides; Lithium bromide; DBU;
Parametric study of water vapor absorption into a constrained thin film of lithium bromide solution
Keywords: لیتیوم برومید; Absorption system; Nanofibrous membrane; Mass transfer; Constrained thin-film absorber; Lithium bromide; Lattice Boltzmann method
Development of a thermo-gravity pumping mechanism for circulating the working fluids in a novel LiBr–H2O vapour absorption refrigeration (VAR) system
Keywords: لیتیوم برومید; Pump; Thermo-gravity; Lithium bromide; Diffusion; Absorption; Refrigeration; Regenerator
Extension of the characteristic equation to absorption chillers with adiabatic absorbers
Keywords: لیتیوم برومید; Absorption; Lithium bromide; Temperature difference; Chilled water; Air conditioningAbsorption; Bromure de lithium; Différence de température; Eau glacée; Conditionnement d'air
New flat-fan sheets adiabatic absorber for direct air-cooled LiBr/H2O absorption machines: Simulation, parametric study and experimental results
Keywords: لیتیوم برومید; Absorption; Lithium bromide; Adiabatic absorber; Direct air-cooled; Modeling; Experimental validation
Thermal conductivity measurement of oil in Water (O/W) nanoemulsion and oil in H2O/LiBr (O/S) binary nanoemulsion for absorption application
Keywords: لیتیوم برومید; Nanoemulsion; Water; Lithium bromide; Stability; Thermal conductivity; Absorption system; Binary mixtureNanoémulsion; Eau; Bromure de lithium; Stabilité; Conductivité thermique; Système à absorption; Mélange binaire