06-11-14, 11:22 AM | #441 | |
Supreme EcoRenovator
Join Date: Mar 2009
Location: Portland, OR
Posts: 4,004
Thanks: 303
Thanked 724 Times in 534 Posts
|
Quote:
A previous PDX poster to the thread made a simple cross flow chloroplast rig that was about 2 feet long and about 6" x 6", using a computer fan. He had it tilted a bit, so that it was self-draining. It dripped and drained a bit, but it dripped and drained constantly. If you had a strategically rigged drain pan and a small plastic tube, it would self-drain and there would be minimum air leakage. BTW, I like your series cross-flow idea. -AC_Hacker
__________________
I'm not an HVAC technician. In fact, I'm barely even a hacker... |
|
06-11-14, 08:06 PM | #442 | |
Supreme EcoRenovator
|
Quote:
Make sure to include drip edges and a drain in your enclosure. Leave no space for water to stagnate, and put a p-trap in the drain. The small pressure difference (millimeters of H2O) will not overcome a half inch p-trap. Also, make sure to put filters on the intake sides of both flow paths. These cores like to clog up with dust. Bugs love to make homes in the cores also (especially spiders), so put screens on the outdoor ports to keep them from invading. The lifebreath unit: Functional sketch of the lifebreath: Notice the defrost damper on the fresh air inlet. I believe it will rotate to close off the fresh air port completely when defrosting. The frigate unit: Notice the fans are in the center chamber and no defrost damper. The unit defrosts by running exhaust air only. You can route ducts for these things many ways. Check out this thread: http://www.doityourself.com/forum/du...uestion.html#b Last edited by jeff5may; 06-11-14 at 08:09 PM.. |
|
06-11-14, 11:23 PM | #443 |
Super Moderator
Join Date: May 2009
Location: Warsaw, Poland
Posts: 964
Thanks: 189
Thanked 111 Times in 87 Posts
|
Run your intake air through a few meters of buried tube(s). That way it will be precooled in the summer (and slightly dehumidified) and prewarmed in the winter. Not only does this increase the system's efficiency, but also if sized correctly, the intake air will never be below freezing, so no defrost will be required.
__________________
Ecorenovation - the bottomless piggy bank that tries to tame the energy hog. |
06-12-14, 10:45 AM | #444 | |
Supreme EcoRenovator
Join Date: Mar 2009
Location: Portland, OR
Posts: 4,004
Thanks: 303
Thanked 724 Times in 534 Posts
|
Quote:
I agree with the concept for sure, but I think your idea of "a few meters" may be a bit naive. You may be underestimating by a factor of 6. Most earth-tube designs I have seen call for lengths of around 30 meters. But your principle is sound. -AC
__________________
I'm not an HVAC technician. In fact, I'm barely even a hacker... |
|
06-30-14, 04:56 PM | #445 |
Lurking Renovator
Join Date: Jun 2014
Location: UK
Posts: 1
Thanks: 0
Thanked 5 Times in 1 Post
|
Here are some photos of a DIY Heat Recovery System I built last summer with the help of info in this thread.
Like previous posts the core is made from Corex sheets and Corex spacer strips stuck together with double sided tape. The case is made form laminated MDF, the fans are 48VDC ones I found on Ebay which are controlled by an Arduino, the gold box on top of the unit is the 48V PSU. There are temp sensors in the four inlets/outlets which are read by the arduino and which can be monitored by myself via my PC. I built the unit to bring down the relative humidity in my house during the winter, as I found myself opening all the windows during the cold weather for ventilation. last winter was mild in the UK and the lowest input air temp I saw was about 1*C, with an extract temp of 20*C I was seeing about 16/17*C Supply air to the house, if I remember correctly. As long as the external temp was below 8*C the internal Relative Humidity was between 45-55% where it had been closer to 70% without the heat recovery. The unit could still do with a bit of work with regards to insulating the ducts as it lives in my loft. You can see the aluminum drip tray which deals with most of the condensation, although I do get some condensation on the internal surfaces which may shorten the life of the MDF case. A better case design would allow all the condensation to run down to one point, or build it out of something water resistant. When I first ran the unit I didnt connect the condensate drain which seemed fine until the outside temp dropped to below 10*C it then started producing about half pint of water in 24hours When winter returns ill post some screen shots of the temp sensor readings Last edited by Daox; 07-01-14 at 10:52 AM.. |
07-27-14, 07:34 PM | #446 |
Lurking Renovator
Join Date: Jul 2014
Location: UK
Posts: 4
Thanks: 4
Thanked 0 Times in 0 Posts
|
This has turned into a long thread, but totally worthwhile.
Thanks to all contributors for the last 4 years or so of fantastic information and inspiration. Apologies from me for making a long post, but on topics like this enough detail needs to be given to solicit quality responses without lots of follow up posts! ---- I'm researching the design/construction of a HRV for an old wooden boat we're completely restoring/renovating. I'd like to run some design aspects/choices past the audience and ask for feedback/advice please before they get locked in. To empathise, as it's a boat, power (aka never enough of it, aka electricity) and keeping costs under tight control are the two major factors. Also due to the nature, I need to plan all of the major works (electrical, plumbing, HVAC etc in whilst I'm working on the Hull/Superstructure). So important to get it 'mostly' right from the start! So, to our own HRV design... Proposed HRV design Three Counter Cross Flow cores in series. Each ~243mm x 243mm x 346mm (~ 9.5" x 9.5" x 13.5"), constructed from 2mm Correx (extruded polypropylene, aka the estate agents sign material as discussed at length here). The size is partially determined by the size of the fans. I appreciate that 3 cores is perhaps overkill and suffers from diminishing returns. Still, the Correx is very cheap and a small proportion of the costs of building a HRV. Lots of surface area and the 2mm has thin walls. If air resistance of the 3rd core proves to be too high a cost to pay (compared to the extra ~10% efficiency) then I can leave it out but I'll start off with it in. Airflow 4x 48V DC 13W 0.27A high efficency axial fans, each yields 226CFM. 172mm (6.75") in Dia. 47 db(A) at full tilt means they are fairly quiet and when they are enclosed with the HRV cores and tucked away in the 'mechanical' room means we'll never know they are running (cross fingers). Two of these on the input and two on the output. A total of 452CFM for each of the flow and return BUT I only need 400CFM to acheive 6 Air Changes per Hour. I'll PWM these down to the 85% of flow for 6ACH, 42.5% for 3ACH (or drop down to 1 fan per leg) etc (whatever saves the most power). Depending on time of day and temp/humidity conditions measured throughout will influence the tradeoff between ACH and maintaining the target temp/humidity selected on the 'thermostat'. Filtration A cheap, fairly coarse, air con/HRV disposable filter on the Fresh Air In, and I'm hoping to source a HEPA H14 filter for the Fresh Air Out. A HEPA H14 grade filters down to 0.3µm so is good enough to stop Legionella spores. I don't know if the resistance of this filter will be a show stopper or not yet. I could add more fans (I can get them dirt cheap, and they are energy efficient). Heating/Cooling I've also pencilled in two water/air heat exchangers (Honda motorcycle 'radiators') that I'll be passing water through. Hot through one, cold through the other (not at the same time, motorised ball valves under microprocessor control which, if either, is on). I'm expecting the hot radiator to add 2-6°C depending on air flow. The cold radiator won't be nearly as effective, possibly 1-2°C due to a much lower deltaT, but every single degree of cooling helps. (Two radiators make the plumbing design simple) Condensate drainage I've allowed space for the condensate to collect and the microcontroller will monitor the water level and activate a small DC pump to remove that from time to time. Humidifier/De-humidifier Pulling apart a cheap ultrasonic humidifier could be a nice touch. Removing the integral large water reservoir and feeding the water from an external source make them quite compact. A cheap one can inject 480 ml/hr. In rough numbers that is enough to drop the temp by 2.5°C (I think). However 3 ACH's drop this to @1°C of course, 6ACH's = ~0.5°C. Perhaps something that can inject 1000 ml/hr may be a better choice. Of course maintaining RH is important but remember this is a boat so higher than average RH on the input compared to a house. De-humidifier. I'm not so keen on integrating this internally. I can always add this 'feature' at some point if humidity is ever a problem by using one of the portable units as my gut tells me it may only be an issue in rare circumstances (given the number of ACH's the HRV can do, after all a HRV acts somewhat like a dehumidifier as a side effect). Some background info/factors: I've roughly calculated that due to the volume size, the amount of insulation etc. that a 5KW water heater (for heating & domestic hot water supply) will ensure a ~20°C internal temp IF we fit a HRV that manages 50% or better under external conditions down to ~-5°C. Volume: It's not a massive boat, in round numbers 4,000 Cu. Ft. Insulation: Good, not far off a typical house (double glazing etc). Location: UK (so Winters can be cold - say -10°C. Summers can be hot - 32°C yesterday for example) Power: 48VDC (from batteries, generator & solar - shoreline 230VAC at times too) Air Changes per Hour: between 1 & 6, depending on time of day and environmental circumstances (IE it will be dynamic) Control: Microprocessor controlled, Temp/Humidity constantly measured everywhere of course. Heating: As mentioned, a 5KW diesel water heater provides hot water. This would be used for domestic hot water and underfloor radiant heating. Cooling: As it's a boat, we're sitting on an unlimited supply of 'cold' water. 5-12°C is typical. This would be utilised via a water/water heat exchanger to the 'dirty' water isn't used directly inside the boat of course. This cooling source will be used for other things too. |
07-28-14, 10:48 AM | #447 | |
Supreme EcoRenovator
Join Date: Mar 2009
Location: Portland, OR
Posts: 4,004
Thanks: 303
Thanked 724 Times in 534 Posts
|
Quote:
I prefer this kind of fan, it has the ECM motor integrated into the hub, and is quieter and more efficient. -AC
__________________
I'm not an HVAC technician. In fact, I'm barely even a hacker... |
|
07-28-14, 11:07 AM | #448 |
Lurking Renovator
Join Date: Jul 2014
Location: UK
Posts: 4
Thanks: 4
Thanked 0 Times in 0 Posts
|
What make/model (URL if available please) are those? How many ACH's etc does your setup do? Any issues with maintaining flow/pressure?
I've already bought the fans but it would still be good to compare/contrast. I can't do inline images or URL's yet (due to low post count) but images.google for 109E1748H502 will quickly show what I have (quite common in top of rack cooling solutions so plentiful from IT refurbishers/recyclers) |
07-28-14, 01:10 PM | #449 | |
Supreme EcoRenovator
Join Date: Mar 2009
Location: Portland, OR
Posts: 4,004
Thanks: 303
Thanked 724 Times in 534 Posts
|
Quote:
Ebay has a pretty good listing. They tend to be very expensive on ebay. I found mine (I got 2 different-sized pairs) by constant, relentless ebay searching. The answers to your technical questions could best be found in a EBM Pabst catalog. Best, -AC
__________________
I'm not an HVAC technician. In fact, I'm barely even a hacker... |
|
07-28-14, 06:52 PM | #450 |
Supreme EcoRenovator
Join Date: Oct 2008
Location: Austin, TX
Posts: 1,154
Thanks: 14
Thanked 257 Times in 241 Posts
|
You could build a water source heat pump to supply some of the heat, with the generator supplying the rest. Should be far more efficient than idling the "APU" purely for heat. Also, when connected to mains (maybe not often enough for it to really matter), the APU wouldn't have to run at all.
__________________
To my surprise, shortly after Naomi Wu gave me a bit of fame for making good use of solar power, Allie Moore got really jealous of her... |
The Following User Says Thank You to NiHaoMike For This Useful Post: | Jim_UK (07-28-14) |
Tags |
erv, heat recovery, hrv |
|
|