Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Charging batteries

The contribution that Hocking wished to make was to refine the sensor system and the instrumentation paekage so as to be able to incorporate the necessary functionality within a lightweight portable battery operated instrument. This implied a lower power level and very low-noise instrumentation. We aimed also for a low cost instrument able to operate for several hours from fully charged batteries and able to operate at a pull speed of 500mm/second. [Pg.321]

Operates for up to 5 hours from fully charged batteries on NFe tubing and better than 2.5 hours on Fe tubing. [Pg.323]

Charger failures Rectifier failures Battery earth fault Battery boost charge Battery low volts... [Pg.225]

Li - MoS2 batteries were developed by Moli Energy lithium is intercalated into the positive MoS2 material. The value of x can vary from about 0.2 for a fully charged battery to about 1.0 for a fully discharged battery in accordance with reaction ... [Pg.57]

Charging, batteries, 3 410 CHARM analysis, 11 519-520 Char Oil Energy Development (COED) process, 6 853... [Pg.164]

The Sunmobile SunVee is a solar neighborhood vehicle. Solar electric panels are integrated with the body to charge batteries which power an electric motor. The neighborhood range is about 30 miles with a top speed of about 25 miles/hour. The Sunmobile is based on a commercial four-wheeled, two person, pedaling bike, called a Rhoades Car. [Pg.257]

The Sunmobile is charged solely with photovoltaic panels mounted as a roof canopy. It will travel at up to 30 mph with a range of up to 30 miles on a fully charged battery. A twist grip on the handlebars feeds information to a motor controller mounted under the chassis. [Pg.257]

Freshly assembled cells are subjected to a series of formation cycles in order to activate the system. Cells are often sold in a charged but dry state, in which case the formation process is performed before the final cell assembly. Dry charged batteries can be stored indefinitely. Cells containing electrolyte should be stored in the completely discharged state since dissolution of silver oxide is then avoided. [Pg.195]

Emissions from generation of power to charge battery)... [Pg.497]

One of the main reasons why chemical condensers and electrolytic rectifiers have not been more popular is the sloppiness of the liquid electrolyte. Perhaps some experimenters may overcome this disadvantage by using some form of jelly or fused electrolyte. Fused sodium phosphate has been used for the electrolyte of an aluminum cell rectifier with very good results. It would seem that much better efficiency would be obtained when using the rectifier for B eliminators, because the current used is much less than for charging batteries. [Pg.2]

Dry-charged battery — Batteries that are shipped and stored in the charged state, but dry and free of electrolyte. Under such conditions the batteries exhibit very long shelf life, and can be rapidly activated by introducing the electrolyte upon demand. Silver-oxide based bat-... [Pg.172]

Hypothesizing The density of a sample of electrolyte from a lead-acid battery is measured and found to be 1.09 g/mL. Do you think this density indicates a fully charged battery, partially discharged battery, or a dead battery Give a reason for your choice. [Pg.694]

See other pages where Charging batteries is mentioned: [Pg.398]    [Pg.517]    [Pg.440]    [Pg.441]    [Pg.698]    [Pg.987]    [Pg.1193]    [Pg.171]    [Pg.355]    [Pg.1309]    [Pg.1312]    [Pg.235]    [Pg.138]    [Pg.119]    [Pg.635]    [Pg.80]    [Pg.459]    [Pg.667]    [Pg.69]    [Pg.14]    [Pg.271]    [Pg.389]    [Pg.157]    [Pg.2326]    [Pg.368]    [Pg.33]    [Pg.155]    [Pg.322]    [Pg.130]    [Pg.277]    [Pg.226]    [Pg.69]    [Pg.483]    [Pg.1118]    [Pg.354]    [Pg.238]   
See also in sourсe #XX -- [ Pg.1309 ]



SEARCH



Analytical Study of a Battery Charge Cycle

Batteries Boost charging

Batteries Charge-discharge cycles

Batteries Constant current charging

Batteries Constant voltage charging

Batteries Float charging

Batteries applications charge/discharge profile

Batteries fast-charge

Batteries, changing/charging

Battery charge/discharge

Battery charging results

Battery performance charge capacities

Battery performance charge/discharge profile

Battery state of charge

Charge characteristic, nickel cadmium batteries

Charge nickel-cadmium battery

Charge-discharge characteristics lithium battery electrodes

Charge-discharge characteristics lithium polymer batteries

Charging lead-acid batteries

Charging lithium-ion batteries

Charging nickel-iron batteries

Charging nickel-zinc batteries

Charging primary batteries

Charging sealed nickel-cadmium batteries

Charging sealed nickel-metal hydride batteries

Charging silver-iron batteries

Charging silver-oxide batteries

Charging smart batteries

Dry-charged batteries

Fast charge battery chemistries

Fast charge lithium battery chemistries

Impact on Battery Electrical Parameters from Onboard Charging and Discharging

Lithium primary batteries charging

Lithium-ion batteries charge

Motive power batteries charging

Nickel-cadmium batteries charge/discharge reactions

Operational modes and charging techniques for secondary batteries

Slab with Nonhomogeneous Flux Boundary Conditions during Charging of a Battery

Standby batteries, lead acid charging

Typical Charging Rates for Rechargeable Battery Packs and Electrical Load

Wet-charged batteries

© 2024 chempedia.info