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Oxidation cells

The cell for this process is unlike the cell for the electrolysis of aluminum which is made of carbon and also acts as the cathode. The cell for the fused-salt electrolysis is made of high temperature refractory oxide material because molten manganese readily dissolves carbon. The anode, like that for aluminum, is made of carbon. Cathode contact is made by water-cooled iron bars that are buried in the wall near the hearth of the refractory oxide cell. [Pg.496]

Eig. 12. Comparison of battery efficiency for miniature zinc—mercuric oxide cells containing KOH or NaOH electrolyte (21). [Pg.528]

The cathode reaction involves reduction of silver oxide to metallic silver [7440-22-4J. The reaction is a two-phase, heterogeneous reaction producing a substantially constant voltage during discharge. Some manganese dioxide may be added to the cathode, as in the case of mercury oxide cells. [Pg.530]

Two types of continuous flow solid oxide cell reactors are typically used in electrochemical promotion experiments. The single chamber reactor depicted in Fig. B.l is made of a quartz tube closed at one end. The open end of the tube is mounted on a stainless steel cap, which has provisions for the introduction of reactants and removal of products as well as for the insertion of a thermocouple and connecting wires to the electrodes of the cell. A solid electrolyte disk, with three porous electrodes deposited on it, is appropriately clamped inside the reactor. Au wires are normally used to connect the catalyst-working electrode as well as the two Au auxiliary electrodes with the external circuit. These wires are mechanically pressed onto the corresponding electrodes, using an appropriate ceramic holder. A thermocouple, inserted in a closed-end quartz tube is used to measure the temperature of the solid electrolyte pellet. [Pg.552]

Copper oxide cell Consists of Zn anode and CuO as cathode with alkaline electrolyte Zn + OH + CuO —> Cu + HZnO 2... [Pg.667]

N4. Nathan, C., Natural resistance and nitric oxide. Cell 82, 873-876 (1995). [Pg.123]

As the superoxide radical is a precursor of the other reactive oxygen species and interacts with blood plasma components under physiological and pathological conditions as well, systems related to its generation are biologically relevant. It should be noted, however, that with respect to the initiation of lipid peroxidation as one of the main causes of oxidative cell damage, its own reactivity is very weak and that only in protonized form is its toxicity comparable to that of lipid peroxyl radicals [18]. [Pg.501]

A high-temperature seal for a solid oxide cell needs to be hermetic and be able to withstand thermal cycles. However, there is sparse literature available regarding seal... [Pg.230]

The market for batteries is huge, with new types and applications being developed all the time. For example, a watch battery is a type of silver oxide cell silver in contact with silver oxide forms one half-cell while the other is zinc metal and dications. Conversely, a car battery is constructed with the two couples lead(IV) lead and lead(IV) lead(II). The electrolyte is sulphuric acid, hence this battery s popular name of lead-acid cell (see further discussion on p. 347). [Pg.303]

Fig. 12.75Section through zirconium oxide cell 1, zirconium oxide tube 2, NTC resistor 3, dosing electrodes 4, ceramic spacer 5, measuring electrodes 6, thermal insulation 7, heating coil 8, thermocouple Source Own files... [Pg.371]

Role of Nitric Oxide and Membrane Phospholipid Polyunsaturation in Oxidative Cell Death... [Pg.97]


See other pages where Oxidation cells is mentioned: [Pg.573]    [Pg.574]    [Pg.523]    [Pg.524]    [Pg.528]    [Pg.528]    [Pg.530]    [Pg.530]    [Pg.67]    [Pg.307]    [Pg.309]    [Pg.345]    [Pg.388]    [Pg.359]    [Pg.516]    [Pg.292]    [Pg.1315]    [Pg.131]    [Pg.131]    [Pg.132]    [Pg.368]    [Pg.912]    [Pg.19]    [Pg.235]    [Pg.1036]    [Pg.1037]    [Pg.246]    [Pg.98]    [Pg.98]    [Pg.99]    [Pg.101]    [Pg.103]    [Pg.105]    [Pg.106]    [Pg.107]    [Pg.109]   
See also in sourсe #XX -- [ Pg.85 ]




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Advanced Inorganic Materials for Solid Oxide Fuel Cells

Alcohol oxidation direct methanol fuel cells

Anode for solid oxide fuel cells

Anodes solid oxide fuel cells

Bond Graph Modelling of a Solid Oxide Fuel Cell

Cadmium-mercuric oxide cells

Cadmium-nickel oxide cells

Cadmium-silver oxide cells

Carbon monoxide oxidation reactor cell

Cathodes solid oxide fuel cells

Cell culture sensors, nitric oxide

Cell membrane consequences oxidant stress

Cell walls periodate oxidation

Cell, electro-oxidation

Cell-derived Oxidants and Their Effects on HA

Cells periodate oxidation

Ceria in Solid Oxide Fuel Cell Electrodes

Compressive seals, for solid oxide fuel cells

Copper oxidation outside cells

Copper oxide cell

Direct methanol fuel cells oxidation kinetics

Direct methanol fuel cells oxidation kinetics, increasing

Durability of solid oxide fuel cells

Early History of Solid Oxide Fuel Cell

Electro-Oxidation of Hydrocarbons in Fuel Cells

Electrocatalysis of Cathodic Oxygen Reduction and Anodic Hydrogen Oxidation in Fuel Cells

Electrochemical cells nickel oxide

Electrochemical half-cells fuel oxidation reaction

Electrodes for solid oxide fuel cells

Electrodes single-oxide fuel cell

Electrolysis cell oxidation

Electrolytes for solid oxide fuel cells

Electrolytes zinc/silver oxide cells

Endothelial cell-derived relaxing factor. See Nitric oxide

Endothelial cells cholesterol oxides

Endothelial cells lipid oxidation products

Endothelial cells nitric oxide formation

Energy conversion membranes solid oxide fuel cells

Fuel cell membranes oxidative stability

Fuel cell oxidants

Fuel cell sohd conducting oxide

Fuel cells anodic hydrogen oxidation catalysts

Fuel cells high-pressure solid oxide

Fuel cells hydrogen oxidation

Fuel cells solid oxide

G. Kaur, Solid Oxide Fuel Cell Components

General Electric, solid oxide fuel cell

Granule cells nitric oxide synthase

Hammou Solid Oxide Fuel Cells

High power density solid oxide fuel cell

Hydrocarbon fuels direct oxidation fuel cells

Hydrogen solid oxide fuel cell

In-cell hydrocarbon oxidation

Interconnectors for solid oxide fuel cell

Intermediate temperature solid oxide fuel cells

Intermediate temperature solid oxide fuel cells ITSOFC)

Intermediate-temperature solid oxide fuel cells IT-SOFCs)

Ionic conductivity solid oxide fuel cells

Iron-nickel oxide cells

Iron-silver oxide cells

Japan solid oxide fuel cell development

Lead oxide test cell with

Lithium-copper oxide cells

Lithium-silver vanadium oxide cells

Low-temperature solid oxide fuel cells

Mercuric oxide dry-cell

Metal hydride-nickel oxide cells

Metal hydride-silver oxide cells

Micro-solid oxide fuel cells

Nitric oxide cell apoptosis

Nitric oxide cell culture

Nitric oxide cell differentiation

Nitric oxide cells/macrophages

Nitric oxide synthase cells

Nitrogen oxides sensor cell

On the Path to Practical Solid Oxide Fuel Cells

Operando Fuel Cell Studies Hydrogen Oxidation in 100 ppm CO

Overview of Intermediate-Temperature Solid Oxide Fuel Cells

Oxidants and Cell Signaling in the Lung

Oxidation galvanic cells

Oxidation half cell

Oxidation half-cell reaction

Oxidation-reduction Galvanic cells)

Oxidation-reduction cell potential

Oxidation-reduction cells

Oxidation-reduction equations standard cell potential

Oxidation-reduction reaction electrochemical cell

Oxidation-reduction reaction fuel cells based

Oxidation-reduction reactions concentration cells

Oxidation-reduction reactions fuel cells

Oxidation-reduction reactions galvanic cells

Oxidative Stress in Mammalian Cells

Oxidative stress and cell proliferation

Oxidative stress-mediated cell death

Oxidatively damaged cells

Oxide Fuel Cells

Oxides solid-oxide fuel cells

Oxidized-mediated cell death

Oxidizing agents positive reduction half-cell potentials

Oxygen electrolytes, solid oxide fuel cell

Primary batteries mercuric oxide cells

Primary batteries silver oxide cells

Primary battery zinc-mercury oxide button cell

Primary lithium cells oxide cathodes

Primary silver vanadium oxide cells

Proton conducting solid oxide fuel cells

Rechargeable silver vanadium oxide cells

Research solid oxide fuel cells

SOFC cathodes Solid oxide fuel cells

Silver oxide cell

Silver vanadium oxide cells

Single-cell sensors, nitric oxide

Single-chamber solid oxide fuel cells

Single-chamber solid oxide fuel cells SC-SOFCs)

Sites solid oxide fuel cells

Sobd-oxide fuel cell

Solid Oxide Fuel Cell Electrode Fabrication by Infiltration

Solid Oxide Fuel Cell Materials and Performance

Solid Oxide Fuel Cell Maximum Voltage

Solid Oxide Fuel Cell alternative concepts

Solid Oxide Fuel Cell electrode

Solid Oxide Fuel Cell electrolyte, alternative

Solid Oxide Fuel Cells Past, Present and Future

Solid Oxide Fuel Cells: Materials Properties and Performance

Solid oxide cells

Solid oxide electrolysis cells

Solid oxide electrolyzer cells

Solid oxide fuel cell Carbonate

Solid oxide fuel cell Direct conversion

Solid oxide fuel cell Future directions

Solid oxide fuel cell Introduction

Solid oxide fuel cell active parts

Solid oxide fuel cell anode materials

Solid oxide fuel cell anodes ceramic

Solid oxide fuel cell anodes conventional

Solid oxide fuel cell anodes perovskite-type materials

Solid oxide fuel cell carbon

Solid oxide fuel cell cathode materials

Solid oxide fuel cell cathodes conventional

Solid oxide fuel cell cathodes perovskite-type materials

Solid oxide fuel cell chromium

Solid oxide fuel cell companies

Solid oxide fuel cell competitiveness

Solid oxide fuel cell components

Solid oxide fuel cell conductor

Solid oxide fuel cell configurations

Solid oxide fuel cell contamination

Solid oxide fuel cell degradation

Solid oxide fuel cell deposition

Solid oxide fuel cell devices

Solid oxide fuel cell different types

Solid oxide fuel cell electrochemical reaction

Solid oxide fuel cell electrolyte

Solid oxide fuel cell electrolytes ceria-based

Solid oxide fuel cell electrolytes conventional

Solid oxide fuel cell electrolytes materials

Solid oxide fuel cell electrolytes perovskite-type materials

Solid oxide fuel cell electrolytes zirconia-based

Solid oxide fuel cell gadolinium-doped ceria

Solid oxide fuel cell interconnects

Solid oxide fuel cell issues

Solid oxide fuel cell membrane reactors

Solid oxide fuel cell performance

Solid oxide fuel cell reduction potential

Solid oxide fuel cell type membrane

Solid oxide fuel cell type membrane reactor

Solid oxide fuel cells -based

Solid oxide fuel cells Ceria-based materials

Solid oxide fuel cells PEMFCs, working with

Solid oxide fuel cells SOFCs)

Solid oxide fuel cells Westinghouse tubular cell

Solid oxide fuel cells Zirconia-based materials

Solid oxide fuel cells advantages

Solid oxide fuel cells and membranes

Solid oxide fuel cells apatites

Solid oxide fuel cells basic components

Solid oxide fuel cells cathode, electrochemical reactions

Solid oxide fuel cells cell design

Solid oxide fuel cells cell interconnection

Solid oxide fuel cells chemical thermodynamics

Solid oxide fuel cells combined cycle systems

Solid oxide fuel cells combined cycles

Solid oxide fuel cells conductivity

Solid oxide fuel cells development

Solid oxide fuel cells disadvantages

Solid oxide fuel cells drawbacks

Solid oxide fuel cells durability

Solid oxide fuel cells fabrication techniques

Solid oxide fuel cells finite element analysis

Solid oxide fuel cells first generation

Solid oxide fuel cells heat generation from

Solid oxide fuel cells high power

Solid oxide fuel cells high-temperature environment

Solid oxide fuel cells hybrid systems

Solid oxide fuel cells interconnection

Solid oxide fuel cells introduced

Solid oxide fuel cells manufacture

Solid oxide fuel cells manufacturing

Solid oxide fuel cells membrane

Solid oxide fuel cells merits

Solid oxide fuel cells metallic

Solid oxide fuel cells metallic interconnectors

Solid oxide fuel cells methane steam reforming

Solid oxide fuel cells methods

Solid oxide fuel cells modeling

Solid oxide fuel cells monolithic

Solid oxide fuel cells nanostructured materials

Solid oxide fuel cells operating principle

Solid oxide fuel cells operating temperature

Solid oxide fuel cells operation

Solid oxide fuel cells other materials

Solid oxide fuel cells overall chemical reaction

Solid oxide fuel cells oxygen reduction

Solid oxide fuel cells planar design

Solid oxide fuel cells potential application

Solid oxide fuel cells power plant, components

Solid oxide fuel cells power systems

Solid oxide fuel cells pressure

Solid oxide fuel cells reducing operation temperature

Solid oxide fuel cells requirements

Solid oxide fuel cells reversible

Solid oxide fuel cells schematic

Solid oxide fuel cells sealant

Solid oxide fuel cells stack design

Solid oxide fuel cells stationary

Solid oxide fuel cells stationary power generation, application

Solid oxide fuel cells structure

Solid oxide fuel cells systems

Solid oxide fuel cells temperature

Solid oxide fuel cells thickness

Solid oxide fuel cells thin-film

Solid oxide fuel cells tubular design

Solid oxide fuel cells tubular-type

Solid oxide fuel cells zirconia-based

Solid oxide fuel cells, SOFC

Solid oxide fuel cells, vii

Solid oxide fuel cells, viii

Solid-oxide fuel cells electrical conductivity

Solid-oxide fuel cells fluorite

Solid-oxide fuel cells materials challenges

Solid-oxide fuel cells perovskite

Solid-oxide fuel cells reactions between

Solid-oxide fuel cells temperature stability

Solid-oxide fuel-cell applications

The High-Temperature Solid-Oxide (HTSO) Fuel Cell

The Solid Oxide Fuel Cell

Thermal-Hydraulic Model of a Monolithic Solid Oxide Fuel Cell

Titanium oxide compounds, molecular glasses light to current applications, dyesensitized solar cells

Tubular solid oxide fuel cell

Use in Solid Oxide Cells and Oxygen Membranes

Vanadium oxides, rechargeable lithium cells

Vascular smooth muscle cells oxidative stress

Voltage zirconium oxide cell

Voltaic cells oxidizing and reducing agents

Whole-cell catalysts oxidation reactions

Whole-cell enzymes, asymmetric oxidation

Zinc-mercuric oxide cells

Zinc-mercury oxide cells

Zinc-metal oxide cells

Zinc-nickel oxide cells

Zinc-silver oxide and related cells

Zinc-silver oxide cells

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