Ballast water treatment opex trojan marinex electricity around the world

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• The answer depends on the expected operational life of the vessel. gas news australia Annual operational expenses can range from 3% to more than 15% of the capital cost of the treatment equipment. gas 69 A significant portion of these expenditures only occur in later years when replacement and maintenance of the equipment become necessary, so owners deciding to keep a vessel for more than 3 – 5 years should consider OPEX as an important factor.

• All technologies have operational benefits that can minimize OPEX. la gasolina cancion For instance, Electrochlorination systems can be very efficient at delivering the necessary dose when ballasting seawater, and a few are designed to reduce electrode scaling by using triple tube electrode (TTE) technology to lengthen the time between cleaning. Alternatively, UV systems are not affected by salinity or temperature, which allows for consistent and reliable performance in all ports. gas in babies at night Furthermore, the Trojan Marinex BWT system is equipped with TrojanUV Solo Lamp™ Technology. gas emoji Typical medium-pressure lamps have a life expectancy of 4,000 hours. electricity magnetism The Solo Lamp, however, has a life expectancy of beyond 10,000 hours of ballast water treatment operation, which is equivalent to 10+ years.

• Compliance costs may include regular calibration of equipment sensors and recurring sampling of the ballast water discharge to evaluate the levels of active substances and disinfection by-products. gas and bloating after miscarriage The USEPA’s 2013 Vessel General Permit (VGP) specifies a monitoring schedule for residual biocides sampling of two to four times per year, tested independently, submitted as reported and not averaged, and annual calibration of monitoring equipment. This dual-compliance requirement for all active substance systems (biological and residual biocide monitoring) increases the cost of compliance over physical treatment methods (e.g., UV) and is an additional consideration when evaluating technologies.

• Technology is best proven in the field, but the reality is that few ballast water treatment systems are currently in operation, and disclosure of any operational information has been limited. In light of this, relevant data should be provided by the manufacturer that demonstrates the system’s expected performance based on years of testing, experience during the Type Approval process, and track record in other applications. Life cycle testing of critical components is becoming standard practice in the marine industry, and many manufacturers may be able to share the degree of which they stress-tested their technology to support the proposed replacement schedule.

• Anticipating problems requires a degree of familiarity with the equipment and knowledge of what can go wrong. All systems attempt to remain clean during operation, but over time, scaling, biofouling, and sediments can accumulate on critical components and inversely affect performance or prevent treatment. Similarly, high concentrations of active substances can, over time, cause premature seal failure or adversely affect ballast tank coatings and ballast piping systems. A regular inspection program is necessary to identify early warning signs and resolve issues.

• Similar to other marine equipment, periodic cleaning of the equipment may be necessary to maintain performance over the life of the system. gas in dogs symptoms Since ballasting rarely takes place in clear marine waters, systems will treat water with sediments, contaminates, and high organic loading that may exceed the capacity of the system. The combination of heavy sediment and biological material loading has been known to affect filters and disinfection equipment uptime, and should be considered when ballasting to signal potential problems.