Asklemmy

48007 readers

863 users here now

A loosely moderated place to ask open-ended questions

Search asklemmy 🔍

If your post meets the following criteria, it's welcome here!

Open-ended question
Not offensive: at this point, we do not have the bandwidth to moderate overtly political discussions. Assume best intent and be excellent to each other.
Not regarding using or support for Lemmy: context, see the list of support communities and tools for finding communities below
Not ad nauseam inducing: please make sure it is a question that would be new to most members
An actual topic of discussion

Looking for support?

Looking for a community?

Lemmyverse: community search
sub.rehab: maps old subreddits to fediverse options, marks official as such
!lemmy411@lemmy.ca: a community for finding communities

~Icon~ ~by~ ~@Double_A@discuss.tchncs.de~

founded 6 years ago

MODERATORS

Can you distil water with a bottle and a long hose? (lemmy.world)

submitted 2 days ago by Cattail@lemmy.world to c/asklemmy@lemmy.ml

4 comments fedilink hide all child comments

I watched a video that uses gravity to boil water just by lifting it and lowering the pressure. explanation is better in this video

https://www.youtube.com/watch?v=hHNoHhbfFDQ

so I'm running the scenario through my head of lifting the bottle to the point of "cold" boil then lowering it down (while keeping the hose above boil level to avoid contamination from the original) and I'm trying to figure out what the issue would be.

would the water vapor never condense until a temperature change happened, would it be too slow at distilling since there can only be as much water vapor can only be as much as the container?

what are the flaws or limitations

you are viewing a single comment's thread
view the rest of the comments

[–] Scipitie@lemmy.dbzer0.com 7 points 2 days ago (3 children)

I'm writing only based on your text, not the video, please excuse any doubling of content.

It is easier explained if you build an imaginary machine instead of lifting / lowering that does the same thing. The single most important thing to understand is that the lower the pressure the less heat you need to add to boil something. There are funny graphs for each liquid (for example https://courses.lumenlearning.com/umes-cheminter/chapter/vapor-pressure-curves/ ).

The intro explanation

The water in your containers will behave based on their individual combination of pressure and temperature. I'd at any point the water vapor falls below its boiling point at the current pressure it starts to form a liquid. At this point you've made a fancy rain machine.

Note that water itself adds pressure to a system because of its volume even as a gas

A machine

Imagine you have a container at 100 mmHg which according to a random online calculator leads to a boiling temperature of 50 degrees C.

Now you heat this up and lead the water vapor into another chamber which has only s pressure of 10 mmHg. Water has a boiling temperature of only a bit over 10C there! So you keep it at 20C to be sure the water never gets liquid again.

But wait: now you're adding water vapor into a low pressure container - you're literally pressing a gas into it - so you increase the pressure in there.

The first container, the source of the gas, becomes irrelevant: As soon as the additional water increases the pressure to around 20mmHg it starts condensation again as now it's boiling point moved above the 20 degrees.

The flaws

As you've asked for the downsides: it's a very convoluted way of manipulating water to achieve the same result as simply heating it. You would need way more energy to lift the containers far enough or otherwise decrease the pressure than the energy needed to boil it.

Other than energy and logistics I don't see a downside. Liquids don't behave differently in terms of boiling no matter the source: pressure, temperature or a combination.

[–] nis 1 points 2 days ago

Depending on the purpose of the distilling, heating to a lower temperature might not kill pathogens.

load more comments (2 replies)