Cathodic Protection Systems Lynnwood WA

Local resource for Cathodic protection systems in Lynnwood, WA. Includes detailed information on local businesses that provide access to electrochemical cells, metallic structures, steel water fuel pipelines as well as advice and content on storage tanks.

Crosby Homes Inc
(425) 745-0232
2905 170th St Sw
Lynnwood, WA
 
Rf Engineering
(425) 776-9223
19015 36th Ave W Ste G
Lynnwood, WA
 
Engineering-Enviromental Management
(425) 672-1600
4100 194th St Sw
Lynnwood, WA
 
Askance Engineering
(425) 315-9985
5720 214198th St
Lynnwood, WA
 
Schaefer Engineering
(425) 775-5550
23109 55th Ave W
Mountlake Terrace, WA
 
Echelon Engineering
(425) 672-8924
21027 61st Ave W
Lynnwood, WA
 
Jrr Engineering
(425) 697-5108
18609 76th Ave W
Lynnwood, WA
 
Berona Engineers Inc
(425) 744-6033
4630 200th St Sw
Lynnwood, WA
 
Teknologic Engineering
(425) 568-6205
21727 76th Ave W Ste C
Edmonds, WA
 
Dujardin Consuting
(425) 273-0327
4508 243rd Pl Sw
Mountlake Terrace, WA
 

Cathodic Protection

Solar energy is ideally used in situations where a remote source of power is needed and connection to the grid is too expensive. Some applications of solar energy in remote locations are as follows:

Cathodic protection is a process to protect vulnerable metals against corrosion. This is done using a small negative voltage applied to the metal. Bridges, wells and railway lines (to name a few examples) can be protected against corrosion when a positive terminal is attached to the metal and a sacrificial anode is attached to a piece of scrap metal.

Small solar energy and wind energy systems are used to power many cathodic protection systems. Solar PV panels and even small wind turbine systems along with batteries and other system components will work independently of source energy (wind or sun) for up to a week.

This reliability and economics (much cheaper than running hydro lines to any remote area) make these renewable energy sources a big player in the cathodic protection industry (a $2 billion a year industry in the US).

Trestles, pipelines, steel tanks and marine locations are some other structures protected against corrosion, using cathodic protection....

Click here to read more from The Solar Guide

Wind Energy for Cathodic Protection (Case Study #2)

All around the world, corrodible metals are exposed to air and rain. Replacing these structures would be a terrible expense for government and industry. Cathodic protection is needed to prevent corrosion of these vulnerable metals. This is done using a small negative voltage applied to metal. Bridges, wells and railway lines (to name just a few examples) can be protected against corrosion when a positive terminal is attached to the metal and a sacrificial anode is attached to a piece of scrap metal buried in the ground.

Small wind energy systems are used to power many cathodic protection systems. Wind turbine systems along with battery backup and other components work independently of the grid and are designed to go without source energy (wind) for up to a week.

This reliability and economics (much cheaper than running hydro lines to a remote area) make these renewable energy sources a big player in the cathodic protection industry (a $2 billion a year industry in the US).

Trestles, pipelines, steel tanks and marine locations are some other structures that benefit from cathodic protection provided by wind energy systems....

Click here to read more from The Solar Guide

About Us | Contact Us | Link to Us | Privacy Policy | Terms of Use | Resources | Sitemap