porc

a normal heat sink definitely works differently from a peltier. it's also different compared to blowing a fan onto the water surface. The driving force for evaporative cooling is humidity difference. the water surface is at 100% humidity while the environmental air is less. therefore the environment attempts to pull water vapour away from the 100% humidity area on the water surface, and in turn the air on the surface pulls water vapour from the water itself. In order for the water to become water vapour it pulls heat from the surrounding water molecules and that is the reason why your tank cools down. For a heat sink the driving force is temperature difference. there must be a temperature difference between the block and the surrounding air before heat transfer can occur. And in singapore if the air temp is 30deg and your tank is at 26deg, a normal heat transfer block will actually be transferring heat into your tank, no matter how hard your fan blows. In fact, turning the fan up will further increase the rate of heat flow into your tank. so in simple terms a normal heat sink may not work, especially in singapore... cheers...

2-wks already... it must be hungry. The puffer may not recognize the prawn cubes that you're feeding now as food. Try some ghost-shrimp first. It'll be more interested in live, moving objects. Then later when the fish realises that what you're putting in is food, then you can switch back to your current prawn cubes... oh yah... if the ghost-shrimp 'siam' too fast or gets eaten by your other fish, you can also try using a pair of chopsticks to hold on to the shirmp in front of the puffer... my own experience lah...

Hi, for a UV sterilizer you should be more concerned about your pump being too strong rather than too weak... you would want to maximize the time the water spends in the chamber being blasted by the UV rays... When I used one previously (china brand) the box even stated not to exceed flow by a certain amount. Calculating based on the flow rate you stated (20 gal/hr/watt) is not accurate at all. there is no information on the volume capacity of the sterilizer itself. eg. suppose your uv sterilizer is 20 gal then every molecule of water is exposed for 1 hr, but if your sterilizer is 1 gal volume that water only stays inside for 3 mins... I don't know what should be the flow rate. I guess maybe turning around your tank's capacity every hour or even 2 hours should be fine. Cheers, porc

I'm interested in the tank and cabinet only. Bro dtoh, wanna combine order? check your pm. cheers, eddie

Curious too.. has anyone ever tried those japanese white sponge/foam like thingy which claims to be able to wash dishes without soap. Used to have those product demonstrators around the housing estate centrals showing how to use it. Think it's also suppose to be antibacterial but would it be harmful to the tank?

some comments... the weakest link in the whole structure now seems to be at the point where you screw into the wood and metal. if this part fails the reinforcement is useless. you mentioned that the stand is already beginning to rust. from now on the place that you have screwed is going to be where it's gonna rust most, due to the redox differences of the 2 metals (jc chemistry). this will excerbate point 1 above. Since you already have the wood for 6 legs, I suggest you add some horizontals (screw or nail wood to wood) so that the wood part itself is some sort of stand-alone structure to help support the weight.

Hi Giantbicycle, Sorry to here of your flooding incident. Glad everything is ok. Guess we all just have to beware of how we set up our tanks, making sure that nothing is loose or leaks. But accidents still do happen which sometimes cannot be prevented. But we must not give up... Anyway, some comments about the stickyness of the floor. It's due to the drying up of water leaving behind salt on the floor. Not too sure how the vinegar or detergent may help, but essentially what also needs to be done is basically to redissolve the salt and clean it up, which is very slow when you simply use a damp mop and small pail of water and mopping around. you're simply redistributing the salt... It will be faster to wet the floor again by pouring more freshwater directly onto the floor (in a controlled manner lar, like maybe a cup at a time), soaking it up quickly with a mop or cloth, then squeezing the water out and throw away. Of course this is provided you have a stone flooring... Works for me... Cheers...

somehow my toolbar for the straits times page says 1 dead 17 injured but the page still reloads as 5 missing 15 injured...

Cool bro... congrats... but you have an extra pump on there generating heat now... maybe that's the reason... hehe... this one totally way out of my field...

basically what your adapter reads is that it provides 12V and up to 120mA output. you need to read what's on your fan too. My fan at home says DC 12V 0.13A. note that 0.13A = 130mA. So if I use your adapter with my fan, the voltage is compatible but my fan will draw more current than your adapter can handle, thus may overheat the adapter (BAD!) You can try to find a 500mA or 0.5A adapter. That can handle up to 3 of my fans (130x3=390mA) connected in parallel safely. Hope this helps...

Good read... but the contact time between water and air bubbles is also important right? No point having a high turnover rate but a small chamber volume such that the contact time is very small. I guess the well designed skimmers would have taken this into consideration, but what's the actual recommended time. Anyone read something on this before? I guess this info will be useful too for DIYers... cheers...

yup. it's in this latest thread.. http://www.sgreefclub.com/forum/index.php?...opic=15530&st=0

yes, i agree that under normal failure water will drop only till break point 1. Looks like we are in agreement on this and you are good to go... It's not you lah... It's the damn ease of access of the internet and this site. I specifically withheld myself from coming in last night (so that I can sleep early cause I need to work hard today) and this morning but by lunchtime, beh tahan already... See! now I'm back in again, but at least I finished my work for today... guess we're bitten by the reefing and diy bug to think of solutions to all these challenging problems... just as I thought. so technically speaking it's not that the flow rate that is slow. it's just that insufficient height has been built up to increase the flowrate. For my one at home the L1-L2 height difference is only about 3 cm, but I guess this will change depending on your pipe size and flow rate. true! you have the spirit and determination man... i simply gave up on the bottom intake spec when I made mine... Last time I saw it costs enough to build me 10 overflows... cheerios

consider this mod to your new design... haven't thought in detail... you can help think thru whether this will work.. lower the second bend and add the pipes in red. water level in tank will drop to same siphon break point as indicated, but water level in the red pipe will drop to L2. arrggh.... this is distracting me from my work... okay last post for now... will be back tonight... further edit: damn!. just realised this design is no different from yours, only structually different in terms of piping. think I get your idea now... I still think water level will not drop below siphon break point 1, but with this you can increase the L1-L2 difference without emptying the main tank. brilliant!!!

Hi Desmonds, Sorry to hear of your unsuccessful attempt . Puzzles me why you would experience low flow rate. Has the tank level stabalized yet? Or is it that you found that your overflow is not coping with return flowrate and you had to abort the test before your main tank overflows? If this is the case then yes we may have allowed for insufficient L1-L2. All the way man... that's the spirit... I do not have time now to fully analyze your diagram and figure out what you are trying to achieve. But from a quick glance it seems that the water level will not fall below siphon break point 1. Maybe tonight I'll get back to this. Cheers...