On Saturn’s moon Titan, plentiful lakeside views, but with liquid methane

Ligeia Mare, the second largest known body of liquid on Saturn's moon Titan, shown in data obtained by NASA's Cassini spacecraft, is pictured in this NASA handout image released January 17, 2018. NASA/Handout via REUTERS

By Will Dunham

WASHINGTON (Reuters) – Scientists on Monday provided the most comprehensive look to date at one of the solar system’s most exotic features: prime lakeside property in the northern polar region of Saturn’s moon Titan – if you like lakes made of stuff like liquid methane.

Using data obtained by NASA’s Cassini spacecraft before that mission ended in 2017 with a deliberate plunge into Saturn, the scientists found that some of frigid Titan’s lakes of liquid hydrocarbons in this region are surprisingly deep while others may be shallow and seasonal.

Titan and Earth are the solar system’s two places with standing bodies of liquid on the surface. Titan boasts lakes, rivers and seas of hydrocarbons: compounds of hydrogen and carbon like those that are the main components of petroleum and natural gas.

The researchers described landforms akin to mesas towering above the nearby landscape, topped with liquid lakes more than 300 feet (100 meters) deep comprised mainly of methane. The scientists suspect the lakes formed when surrounding bedrock chemically dissolved and collapsed, a process that occurs with a certain type of lake on Earth.

The scientists also described “phantom lakes” that during wintertime appeared to be wide but shallow ponds – perhaps only a few inches (cm) deep – but evaporated or drained into the surface by springtime, a process taking seven years on Titan.

The findings represented further evidence about Titan’s hydrological cycle, with liquid hydrocarbons raining down from clouds, flowing across its surface and evaporating back into the sky. This is comparable to Earth’s water cycle.

Because of Titan’s complex chemistry and distinctive environments, scientists suspect it potentially could harbor life, in particular in its subsurface ocean of water, but possibly in the surface bodies of liquid hydrocarbons.

“Titan is a very fascinating object in the solar system, and every time we look carefully at the data we find out something new,” California Institute of Technology planetary scientist Marco Mastrogiuseppe said.

Titan, with a diameter of 3,200 miles (5,150 km), is the solar system’s second largest moon, behind only Jupiter’s Ganymede. It is bigger than the planet Mercury.

“Titan is the most Earth-like body in the solar system. It has lakes, canyons, rivers, dune fields of organic sand particles about the same size as silica sand grains on Earth,” Johns Hopkins University Applied Physics Laboratory planetary scientist Shannon MacKenzie said.

The research was published in the journal Nature Astronomy.

(Reporting by Will Dunham; Editing by Sonya Hepinstall)

Cracks in Scottish nuclear reactor core prompt safety checks

FILE PHOTO: The Hunterston nuclear power station in West Kilbride, Scotland May 15, 2013. REUTERS/Suzanne Plunkett/File Photo

By Nina Chestney

LONDON (Reuters) – A reactor at EDF Energy’s Hunterston B nuclear power plant in Scotland will remain offline for additional safety checks after cracks were found in its core, Britain’s Office for Nuclear Regulation (ONR) said.

Ageing reactors generate just over 20 percent of Britain’s power but almost half of this capacity, including Hunterston, is due to go offline by 2025, prompting the government to plan new plants.

ONR was informed in March about keyway root cracks found during planned inspections of graphite bricks in the core of Reactor 3 at Hunterston.

Graphite bricks ensure reactors can be cooled and thousands of them are used in reactor cores.

“Inspections confirmed the expected presence of new keyway root cracks in the reactor core and also identified these happening at a slightly higher rate than modeled,” EDF Energy said in a statement.

The reactor has been offline since March and was due to come back online this month, but EDF Energy has extended the outage until later this year.

“While Hunterston B Reactor 3 could return to operation from the current outage, it will remain offline while the company works with the regulator to ensure that the longer term safety case reflects the findings of the recent inspections and includes the results obtained from other analysis and modeling,” it said.

Hunterston B in North Ayrshire, Scotland, has been generating electricity since 1976. Last year, it produced enough electricity for 1.8 million homes.

CRACKS

In 2015, EDF Energy said routine inspections had revealed cracks in part of the graphite core at a Hunterston B nuclear reactor. It said three of 6,000 bricks had cracked, something that had been expected to begin happening at that point in the power station’s life.

Two of EDF Energy’s nuclear power plants in Britain – Heysham 1 and Hartlepool – were offline for months in 2014 for inspections after a crack was found on a boiler spine at Heysham 1.

In Belgium, the regulator ordered production to be stopped at two nuclear reactors in 2012 after finding indications of tiny cracks in core tanks.

The cracks turned out to be particles of hydrogen that were trapped inside the tanks when they were made by a Dutch company in the early 1980s.

EDF said it expects Hunterston B’s Reactor 3 to return to service “before the end of 2018”. EDF Energy’s outage website shows an expected return date of Oct. 4.

Its Reactor 3 and Reactor 4 are both Advanced Gas-cooled Reactors. The outage will reduce its 2018 output by 3 terawatt hours, the company said.

EDF Energy said the operation of its other UK reactors was not affected.

(Reporting by Nina Chestney; Editing by Jason Neely and Mark Potter)