More Needs to be Done to Stop Invisive Species

The following is a Press Release from the Smithsonian Environmental Research Center:

(EDGEWATER, Md.) -- Invasive species have hitchhiked to the U.S. on cargo ships for centuries, but the method U.S. regulators most rely on to keep them out is not equally effective across coasts. Ecologists from the Smithsonian Environmental Research Center have found that ports on the East Coast and the Gulf of Mexico are significantly less protected than ports on the West Coast.

Invaders are frequently introduced across oceans and along coastlines through the ballast water in ship hulls, water that often includes plankton and larval stages of marine and estuarine species. Large vessels need this water for balance as they load and unload cargo. However, by dumping ballast water in their ports of entry, they accidentally bring in new species that can alter or damage the local ecosystem. In 2004 policymakers thought they had found a solution: have cargo vessels exchange their ballast water in the open ocean, at least 200 nautical miles from land. This method, called “open-ocean exchange,” flushes out or kills potential invaders by exchanging coastal water for water from the deep ocean.

But some ships do not use the practice and many more cannot without veering drastically off course. In perhaps the most comprehensive study to date, Whitman Miller and a team of scientists from SERC looked at all international ships entering the contiguous U.S. over three years. Published today in the journal BioScience, the study analyzed approximately 105,000 vessel reports from January 2005 to December 2007. While most ships opted not to discharge their ballast water at all, a substantial number continued to dump unexchanged or improperly exchanged water into their ports of entry.

Not all coasts are affected equally. The Gulf of Mexico and the East Coast received much larger fractions of unexchanged ballast water than the West Coast. Roughly 5 percent of the ballast water discharged on the West Coast had not undergone open-ocean exchange. By contrast 21 percent of the discharged water in the Gulf and 23 percent on the East Coast went unexchanged.

Much of the problem comes down to simple geography. Depending on a ship’s transit route, it may not have the time or space to conduct open-ocean exchange. A mere 24 percent of the ballast water discharged by ships journeying to U.S. ports along coastal routes, from Central or South America, for example, underwent open-ocean exchange. In contrast 91 percent of ballast water discharge by transoceanic shipping was exchanged in the open ocean, where ships have more opportunities to manage their water properly. Because so many of their incoming ships do not pass through the open ocean, ports in the Gulf and East Coast receive more potentially harmful water.

The vast discrepancies point to the need for another solution, ecologists say. If ships could treat their ballast water on board without having to journey to the open ocean, every coast would be safer.

“The Gulf of Mexico coast receives more overseas ballast water discharge than the East or West coasts, and most of this water is either unexchanged or exchanged inside coastal waters,” said Miller. “Given the geographic constraints of shipping, and the complexity of the invasion process, it is clear that we need to move to onboard ballast water treatment technologies that will allow ships to operate anywhere in the world without fear of releasing harmful invasive species.”

The full paper is available upon request. To receive a copy, to speak with Miller or for more information, contact Kristen Minogue at (443) 482-2325 or Monaca Noble at (443) 482-2467.

STX Anounces Eoseas Concept Ship, Incredible Eco-Friendly Design!

The Following is an Article from Ship Technology . This is a pretty incredible design. I would venture to call it the mother of all Sailing Vessels! 

 (11/9/2011)

www.ship-technology.com

Eoseas is a concept cruise ship being developed by STX Europe in collaboration with Stirling Design International (SDI).

The 105,000t ship will have an overall length of 305m, breadth of 60m and draft of 8m. Eoseas is being developed as a part of the Ecorizon programme launched by STX France in 2007.

STX's Ecorizon programme

Ecorizon is a technical programme aimed at developing innovative marine clean technologies and alternatives to oil fuels. The project attained maturity in 2009 after two years of research and development work.

Jointly funded by STX Europe and the Regional Council, Ecorizon consists of five major work programmes including energy management, air emission management, water management, waste management and sustainable design.

Ecorizon addresses the entire environmental footprint of the ship throughout the design, construction and operation stages. The long-term goal of the concept is to reduce the use of non-sustainable energy to 50% by 2015.

Eoseas design and features

Eoseas incorporates a pentamaran hull design. The double hull design will feature long promenade decks on both sides of the ship.

The ship will be a trimaran on five hulls, of which two hulls on either side will have the same fore-and-aft plane. An air cushion under the main hull optimises the hydrodynamic characteristics of the vessel.

The double skin on the ship will function as a natural air conditioning system. The frictional resistance of the ship is reduced with the air film injection and the froude number is reduced by incorporating vertical bow.

Fresh water is generated onboard using highly efficient multistage evaporators and reverse osmosis. The ship will feature an advanced wastewater purification system to treat grey and black waters. An absorption chiller absorbs rain water from the upper decks. It uses heat generated from engines.

The design objectives of the Eoseas are to reduce power consumption by 50%, emissions of CO2 by 50%, SO2 by 100%, NOX by 90% and ash by 100%.

Accommodation onboard the concept cruise ship

Eoseas can accommodate 3,311 passengers in 1,403 cabins. There are 555 cabins for 1,089 crew members. The ship allows the passengers to fully explore the maritime environment. The passenger space ratio of the ship will be 31.7 when full and 37.4 based on lower berths occupancy.

The cabins are designed to use natural lighting and are fitted with presence sensors and light sensors. The energy management systems in the cabins reduce energy consumption by 30%.

Propulsion and power

Eoseas will be powered by four dual-fuel LNG diesel electric generator sets. Each genset provides 8MW power for propulsion and hotel load. There are four screws, two pump propellers with shaft lines on the outriggers and two pump propeller pods on the central hull.

LNG is stored in a storage system similar to that of LNG carriers and is transferred in a pressurised service tank. The ship will have an advanced heat recovery plant to recover thermal energy.

8,300m² photovoltaic panels fixed on side and upper deck provide maximum power of 108MW and an average of 270kWe. The organic waste gasification plant onboard generates 300kWe syn gas which is used in the generator sets.

The ship is equipped with an innovative sail concept patented by STX France. The sails mounted on five masts over 12,440m² significantly use wind energy for propulsion.

STX France conducted 13 tank tests with different hulls and propulsion configurations during 2008 and 2009, achieving 17% improvements over conventional propulsion / hull systems.

The innovative propulsion system aboard the ship enhances fuel efficiency, redundancy and manoeuvring.