Desalination of Ocean Water, Q&A with EarthTalk

If the world is running out of fresh water, why aren’t we desalinating more ocean water?
–H. Smith, Providence, RI

The protagonist of Samuel Taylor Coleridge’s 1798 lyrical ballad The Rime of the Ancient Mariner proclaims: “Water water everywhere / nor any drop to drink” as his ship drifts through Antarctic seas with no land or fresh water in sight and the crew slowly dying of thirst. A fitting allegory for our modern age.

Indeed, we’re in that same boat today given that salty oceans cover 70 percent of the Earth’s surface while freshwater becomes increasingly scarcer due to human overpopulation and climate change. Globally some 700 million people lack access to clean water while droughts are the norm in many regions.

New methods promise to make the desalination of seawater cleaner and more efficient. Credit: Sebastian Voortman, Pexels.

Stepping up desalination—that is, filtering salt out of seawater to make it potable—seems like an obvious solution. But the two most common techniques, reverse osmosis, pushing seawater through membranes to separate the salt; and distillation, boiling seawater and collecting the resulting salt-free water vapor, both require costly amounts of energy and infrastructure. They also create a lot of potentially toxic “brine” as waste that can kill crops and other vegetation and render groundwater too saline to drink, not to mention negatively alter the chemistry of the ocean. Currently the world’s 18,000+ desalination plants pump 140 billion liters of brine into terrestrial holding pits or back into the ocean every day.

Ngai Yin Yip and his team of environmental engineers at Columbia University think their alternative method—“temperature swing solvent extraction” (TSSE)—can fix the problems of leftover brine, in turn making the desalination process cleaner and more efficient. TSSE uses a solvent that reacts to inexpensive low-grade heat to extract freshwater as efficiently as RO or distillation at a fraction of the cost.

Another promising alternative as pioneered by Penn State engineer Bruce Logan and colleagues is called battery electrode deionization (BDI), in which salty water is routed into channels with electrodes designed to capture salt ions and divert freshwater and salt accordingly. BDI is still in the R&D phase, but researchers hope it can eventually become a useful alternative to reverse osmosis or distillation.

But even these alternatives may be less desirable than leaving ocean water alone and focusing instead on conservation and recycling of existing fresh water supplies. The non-profit Pacific Institute reports that stepping up conservation and efficiency measures already in place in water-wise regions like California could reduce annual water use in urban areas by as much as 57 percent. Meanwhile, recycling (and treating) freshwater and making a bigger effort to capture stormwater run-off could produce enough drinking water to quench Los Angeles’ thirst two times over.

Given the magnitude of the problem, we need to embrace all forms of increasing our supplies of freshwater, whether they involve old-school methods like recycling or new-fangled approaches like technology-enabled desalination.

CONTACTS: Temperature Swing Solvent Extraction; “New desalination method offers low energy alternative to purify salty water”; Pacific Institute.

EarthTalk® is produced by Roddy Scheer & Doug Moss for the 501(c)3 nonprofit EarthTalk. Send questions to: question@earthtalk.org.

Capturing & Turning Carbon Dioxide (CO2) Into Fuel, Q&A with EarthTalk

If we already know how to capture carbon dioxide (CO2) and turn it into fuel, why aren’t we doing more of it?
–M.N. Daly, Springfield, MA

With recent measurements detecting the highest levels of atmospheric CO2 in human history—and experts warning we have less than a dozen years to turn around our profligate emissions to avoid cataclysmic changes—the time is nigh to start ratcheting down our carbon footprints. One solution that seems obvious but has been slow to get out of the starting gate is scrubbing large amounts of CO2 from the air and recycling it as a feedstock to produce carbon-neutral fuels to power our machines.

We have known how to capture CO2 from the air at large scale since the 1950s, but it wasn’t until the late 1990s that environmentalists started looking to so-called “Direct Air Capture” (DAC) as one of a suite of tools at our disposal for dealing with the greenhouse effect. Since then, researchers have been scrambling to come up with the most efficient ways to capture CO2.

Massachusetts-based start-up Carbon Engineering formed in 2011 in an effort to produce and eventually commercialize DAC technology that can use captured CO2 to make fuel at costs competitive with producing conventional fossil fuels. After several years of research and development and implementation of its technologies at a pilot plant in British Columbia, the company has been able to get the costs of capturing CO2 down to ~$100/ton—six times less than previous models predicted was possible.

Canadian pilot plant in Squamish, British Columbia
Carbon Engineering has proven at its Canadian pilot plant in Squamish, British Columbia that it can suck greenhouse gases out of the air through so-called Direct Air Capture (DAC) and process them into liquid fuels at a cost nearly as cheap as producing fossil fuels.

But it’s what happens next that has environmental advocates jazzed. Carbon Engineering’s solar-powered electrolyzer splits water into hydrogen and oxygen, and then combines the hydrogen with previously captured CO2 to make carbon-neutral gasoline, diesel or even jet fuel. Assuming a $100/ton cost for capturing atmospheric CO2, the company can produce these eco-friendly fuels for about $1/liter, which is only marginally more expensive than their fossil-fuel counterparts. The hope is that costs will come down to below fossil fuels as demand grows and facilities scale up. Also, as more states follow California’s lead in requiring increasingly significant portions of their fuel mixes to come from “low-carbon” sources, demand for these green alternative fuels will rise and prices will likely drop even more. 

R&D like this isn’t limited to the U.S. Spain’s SUN-to-LIQUID project uses unique solar concentration technologies that combine sunlight with oxygen and atmospheric CO2 to get three times as much energy out of the sun’s rays as existing solar “reactors.” The resulting “synthesis fuel” combines hydrogen and carbon monoxide and could be used to power vehicles or any type of engine equipped to deal with it.

And a team of Swiss and Norwegian scientists wants to put such technologies to use on millions of solar-powered floating islands at sea that could suck CO2 out of the air and turn it into fuel without taking up any land or bothering human neighbors. Such a plan may seem far-fetched, but we need to be open to new idea if we are going to turn the tide on climate change before we reach the dreaded “point of no return.”

CONTACTS: “Atmospheric CO2 hits record high in May 2019”; “Renewable transportation fuels from water and carbon dioxide”; “A Process for Capturing CO2 from the Atmosphere”; “11 million floating solar farms could eliminate carbon emissions from transport”.

EarthTalk® is produced by Roddy Scheer & Doug Moss for the 501(c)3 nonprofit EarthTalk.

All-Natural Ways to Treat Pimples, Q&A with EarthTalk

I suffer from occasional acne but am loathe to treat it with harsh chemicals. Do you know of all-natural ways to get rid of pimples or prevent them altogether?
–J.W., Miami, FL

Acne—when sebum from oil glands under the skin clogs pores causing small bacterial infections that lead to swelling and discomfort—isn’t just a temporary annoyance during our teenage years; it plagues many of us throughout our adult lives as well. Some 85 percent of Americans are prone to at least occasional break-outs or worse. But common over-the-counter treatments—most contain either benzoyl peroxide or salicylic acid—can irritate the skin, eyes and lungs and are also linked to more serious health problems. The U.S. Food & Drug Administration (FDA) warns that the use of these over-the-counter topicals “can cause rare but serious and potentially life-threatening allergic reactions or severe irritation.”

Tea tree oil, witch hazel & milk of magnesia are just a few of the all-natural treatments you can use to make pimples go away and keep problem acne at bay. Credit: Kjerstin Michaela, Pixabay.

Most of the top-selling brands incorporate benzoyl peroxide or salicylic acid in their acne treatments, but the only way to know for sure what’s inside any given product is to consult its label. Even better, do some research online before you buy. The Environmental Working Group’s free online Skin Deep database lists ingredients—and more important, the health and environmental threats—of over 120,000 personal care products, including more than 2,000 different acne treatments now or recently available on store shelves.

As far as alternative treatments go, tea tree oil, distilled from the leaves of Australia’s Melaleuca plant, seems to be a favorite. Studies have shown it to be equally as effective as benzoyl peroxide in reducing both the number of acne lesions and their severity. Likewise, Witch Hazel has similarly positive effects for most who try it, although there hasn’t been any scientific research to back that up yet.

According to National Geographic, dabbing a pasty mixture of powdered nutmeg and honey onto a problem pimple and leaving it there for 20 minutes can help unclog pores. Another trick is to soak a chamomile tea bag in cold water, squeeze it out, then hold it onto a pimple for 30 seconds. Icing a new pimple can also help reduce swelling and discomfort and shorten its lifespan. And smearing a little milk of magnesia on your face at bedtime can help prevent break-outs to begin with.

Healthline’s Kayla McDonnell suggests dabbing zits with apple cider vinegar or witch hazel or applying a honey/cinnamon mask. Her other tips for pimple remediation include regular exfoliation, taking a zinc and/or fish oil supplement, eating a low glycemic load diet, cutting back on dairy, reducing stress and exercising regularly.

If your acne is more severe, it might be worth consulting a dermatologist who can recommend prescription-strength treatments that can work with your body chemistry to limit the production of sebum in the first place. But drying, irritation and/or other side effects can ensue from these doctor-prescribed treatments as well, so be sure to let your doctor know so he or she can adjust the dosage or treatment plan.

CONTACTS: Skin Deep; FDA’s “Topical Acne Products Can Cause Dangerous Side Effects”; “13 Powerful Home Remedies for Acne”; “The efficacy of 5% topical tea tree oil gel in mild to moderate acne vulgaris: a randomized, double-blind placebo-controlled study”.

EarthTalk® is produced by Roddy Scheer & Doug Moss for the 501(c)3 nonprofit EarthTalk.