Hot water distribution doesn't get factored into beneficial winter heat gains, otherwise this might incentivise designing inefficient systems!
Not exact matches
We have to move those products to Kumasi depot, Buipe, Bolgatanga, Maame
Water, Akosombo — that margin is supposed to take care the freight cost or transportation of the fuel from these depots to the inland depots so that consumers around those depots
do not pay different prices by reason of the movement in the primary
distribution.
And, while taking
water that others need is a worry, investors could potentially drive improved
water storage and
distribution in regions that don't have the money to make such improvements.
The
distribution of
water vapor is the only thing that causes or doesn't cause global warming.
Moreover, we
do cruises and take samples of
waters in different locations in order to study the regional
distribution of ocean acidification.
Common to all variations of the breed is an unmistakable sound that didn't change dramatically when the air - cooled boxer was replaced by the
water - cooled engine in late 1997; a less - than - ideal weight
distribution combined with a high polar moment of inertia; compromised packaging with little room for luggage; and a driving experience dominated by phenomenal grip and traction — while it lasted.
Having worked through the relatively painless process of putting TYOTE up on Smashwords in e-book form, and having already gotten a bit of a surprise about the Smashwords fee structure (which I'll be addressing as soon as I can figure out how to
do so in a gentlemanly way), and having been perplexed by all the Smashwords e-book
distribution options, permutations and complexities affecting my content, I'm really loathe to wade into deeper
waters.
A Lacis: You don't seem to appreciate the fact that
water vapor and clouds are feedback effects, which means that the
water vapor and cloud
distributions depend directly on the local meteorological conditions, and are therefore constrained by the temperature dependence of the Clausius - Clapeyron relation.
You don't seem to appreciate the fact that
water vapor and clouds are feedback effects, which means that the
water vapor and cloud
distributions depend directly on the local meteorological conditions, and are therefore constrained by the temperature dependence of the Clausius - Clapeyron relation.
«You don't seem to appreciate the fact that
water vapor and clouds are feedback effects, which means that the
water vapor and cloud
distributions depend directly on the local meteorological conditions»
Note 1 — The total amount of
water vapor, TPW (total precipitable
water), is obviously something we want to know, but we don't have enough information if we don't know the
distribution of this
water vapor with height.
During this two - week transition period, any
water vapor excess (or deficit) relative to the equilibrium
distribution did of course produce a radiative greenhouse heating (or cooling) effect, but this «virtual forcing» was very transient in nature, without any lasting impact on the global temperature.
We don't understand these internal feedback processes very well, largely because we don't understand the details of how different meteorological phenomena conspire to change the amount, phase, and spatial
distribution of
water in the atmosphere.
This doesn't show up in a frequency
distribution but is a critical issue for
water resources planning for instance.
The problem isn't what CO2
does to plants: the chief problem is what the temperature increases will
do to the
distribution of
water.
«For example, the best global atmospheric models driven by specified sea surface temperatures can
do a good job of simulating global temperature, winds and
water vapor
distributions.
The two climate variables which are mainly determined by dynamical process, SLP and SW - CLR (determined by the
distribution of
water vapour),
do not cover sufficiently wide ranges in any of the SMEs.
In the Arctic that can result in a weaker gulf stream in the North Atlantic, while in the southern ocean, would the same mechanism increase the flow of
water into the Humboldt current (what doesn't plunge down has to go somewhere)- behaviour of both currents are different due to land mass
distribution.
The questioner didn't specify whether the
water will be cleaned up in a «batch» for a single household; or, whether treatment would be
done continuously, for a piped
water distribution system.
My answer to that is that there is only a
water distribution problem that we know well how to solve, as
did the Romans and the Babylonians some time ago.
Indeed, while Spotify continues to test out the
waters for what kinds of ventures may
do best on its music
distribution platform — there is also the matter of Spotify for Business, another B2B - style effort for offering Spotify streaming in public venues, where Spotify also doesn't get a cut of anything — it will be interesting to see whether it eventually decides to take some of this kind of activity, and the money to be made from it, into its own hands down the line.