MM,
Before we get too exited about savings by using DC instead of AC, we might
look at where and why we have this large differences in the energy use by
appliances. Let us first establish the fact that a conversion as such, will
cost us between 3 to 10%, depending on method, size and
On Sat, 13 Mar 2004 23:31:01 +0100, you wrote:
MM,
It is an option worth exploiting in the cases where it is possible. I got
enough
feedback, to say that it is valid in all EU countries with off peak
tariffs, which
are almost all. The picture is not clear in US, other than that in some
Monday, March 15/04
murdoch [EMAIL PROTECTED] wrote:
What about the issue of efficiency in converting from AC to DC and
then back to AC?
Each of these conversion actions may have
consequences in terms of lost energy, but I haven't yet figured out
the losses. This has come up for me
On Mon, 15 Mar 2004 23:48:36 -0800 (PST), you wrote:
Monday, March 15/04
murdoch [EMAIL PROTECTED] wrote:
What about the issue of efficiency in converting from AC to DC and
then back to AC?
Each of these conversion actions may have
consequences in terms of lost energy, but I haven't yet
The reason why I ask, is to know what could be gained by only a storage
solution, by utilizing rate differences. If you have low rate prices, they
are normally 50-60% lower than normal rates. With a battery storage
solution, would it be feasible to charge during discounted time and that
way
MM,
It is an option worth exploiting in the cases where it is possible. I got
enough
feedback, to say that it is valid in all EU countries with off peak
tariffs, which
are almost all. The picture is not clear in US, other than that in some states
it is a valid option. Disbursed storage, as in
Hakan,
I have done some superficial research, and my preliminary conclusion is that
scale
is the determining factor. For household-scale energy storage, batteries are
the
most economic solution for storing electricity. I did some rough calculations,
and
concluded that with realistic
Call it biofuel, energy storage, say from burning wvo. On what basis then
could you discount the alternative of hot water storage in large, insulated
tanks if the energy is to be spent in an hydronic system for a combination of
space heating, swimming pool heating, and heating the driveway
on 3/10/04 6:52 PM, [EMAIL PROTECTED] at [EMAIL PROTECTED] wrote:
Call it biofuel, energy storage, say from burning wvo. On what basis then
could you discount the alternative of hot water storage in large, insulated
tanks if the energy is to be spent in an hydronic system for a combination
Glenn,
I do not think that water storage was excluded. Darryl also mentioned the
building mass, which most people forget. It is solutions with storing heat
in water and at the same time wasteful systems who are working on
eliminating the influence of building mass. The discussion was about
Thanks, Hakan.
Glenn
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[EMAIL PROTECTED] wrote (regarding my response to Hakan's post):
Call it biofuel, energy storage, say from burning wvo. On what basis then
could you discount the alternative of hot water storage in large, insulated
tanks if the energy is to be spent in an hydronic system for a combination
I am preparing an article about general energy storages and wonder if
anyone have calculated the costs for the battery storage part of small
energy generation. The more I look at this, the more possibilities opens
up, by using storage techniques. It is even more interesting when you look
at
On Wed, 10 Mar 2004 13:48:17 +0100, you wrote:
I am preparing an article about general energy storages and wonder if
anyone have calculated the costs for the battery storage part of small
energy generation. The more I look at this, the more possibilities opens
up, by using storage
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