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Buddy Portable Catalytic Heater
Thinking of buying this unit too. Has auto oxygen shutoff in contrast to
the Coleman versions. Anybody have experience with this gadget, good or bad? -Greg |
Buddy Portable Catalytic Heater
Greg,
I have the Mr. Heater Little Buddy on my boat. It works great. Haven't had a problem with Carbon Monoxide. I've got Carbon Monoxide detects onboard and they've never chirped once while running the heater all day and night. I run mine off a 20 lb tank. Running it on high when I get home from work until the next morning (about 14hrs) I get about 4 days run time out of the tank. The manufacturer states that it will give 50hrs run time on high and 100 hrs on low off a 20lb tank, and I have found those figures to be pretty accurate. I can tell you this, that one Mr Heater Little Buddy heats my boat much better than my three built-in electric heaters on the boat. It also helps take the dampness out of the air, which the electic heat didn't touch. Dan M/V Sea Ranch |
Buddy Portable Catalytic Heater
NeptunesJester wrote:
Greg, I have the Mr. Heater Little Buddy on my boat. It works great. Haven't had a problem with Carbon Monoxide. I've got Carbon Monoxide detects onboard and they've never chirped once while running the heater all day and night. I run mine off a 20 lb tank. Running it on high when I get home from work until the next morning (about 14hrs) I get about 4 days run time out of the tank. The manufacturer states that it will give 50hrs run time on high and 100 hrs on low off a 20lb tank, and I have found those figures to be pretty accurate. I can tell you this, that one Mr Heater Little Buddy heats my boat much better than my three built-in electric heaters on the boat. It also helps take the dampness out of the air, which the electic heat didn't touch. Dan M/V Sea Ranch The by product of burning propane is water. Your little buddy is putting lots of water into the air. |
Buddy Portable Catalytic Heater
"NeptunesJester" wrote in message oups.com... Greg, I have the Mr. Heater Little Buddy on my boat. It works great. Haven't had a problem with Carbon Monoxide. I've got Carbon Monoxide detects onboard and they've never chirped once while running the heater all day and night. I run mine off a 20 lb tank. Running it on high when I get home from work until the next morning (about 14hrs) I get about 4 days run time out of the tank. The manufacturer states that it will give 50hrs run time on high and 100 hrs on low off a 20lb tank, and I have found those figures to be pretty accurate. I can tell you this, that one Mr Heater Little Buddy heats my boat much better than my three built-in electric heaters on the boat. It also helps take the dampness out of the air, which the electic heat didn't touch. Dan M/V Sea Ranch Bought one to compliment the red dot heat my 25 footer has on it (dealer didn't know it). Anyway, on a 38 degree night, my wife and I got it toasty, turned it off and crawled into the cave (aft cabin). Was just fine all night. Given that, I see no reason to leave it on all night. It does have the oxygen shutoff but why chance it? -Greg |
Buddy Portable Catalytic Heater
You know, I thought about that when I first noticed last year that it
felt drier with the propane heat. Combustion creates water, but it actually feels like a 'drier' heat. Its probably just because the Little Buddy heats so much better that the relative humidity is less even though there is physically more water in the air. |
Buddy Portable Catalytic Heater
"NeptunesJester" wrote in
oups.com: I've got Carbon Monoxide detects onboard and they've never chirped once while running the heater all day and night. Is now a good time to point out that this detector does NOT detect the presence of POISONOUS Carbon DIOXIDE this heater pours out as it consumes all the OXYGEN required for life? It's BURNING fuel, using oxygen from the air and pouring its crap into the exhaust THAT EVERYONE IS BREATHING. Well, Duhh..... Humans are too stupid to use UNVENTED heaters. They should be outlawed. The LEAST they could do is put a button on the side of them you had to press every 10 minutes or they would shut themselves off so stupid humans couldn't SLEEP with the damned thing killing the innocent children. -- Larry |
Buddy Portable Catalytic Heater
Dave wrote:
On Sat, 12 Nov 2005 09:10:46 -0500, Larry said: Is now a good time to point out that this detector does NOT detect the presence of POISONOUS Carbon DIOXIDE this heater pours out as it consumes all the OXYGEN required for life? You're mixing up two concepts here. CO2 is NOT poisonous. CO, on the other hand is. However the absence of oxygen that may result from the creation of CO2 can result in death if the O2 isn't replaced, just as the absence of oxygen for any other reason can do the same. Actually an excess of CO2 can be a problem, it's just a problem at a higher concentration than CO is. The IDLH (immediately dangerous to life and health) limit for CO2 is 40,000 ppm whereas CO has an IDLH of 1200 ppm CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. Matter of fact, O2 at high pressure and concentration is poisonous, leading to convulsions and ultimately death.. Most of the time what happens with O2 in excess of 23.5% is that there is so much danger of fire (asphalt becomes combustible in pure oxygen). grandma Rosalie |
Buddy Portable Catalytic Heater
I don't know what I'm talking about!
Given that: I'm of the impression that Rosalie is wrong, ie. CO2 is not "poisonous". I also think that Dave is wrong. I don't think that I would survive on a mixture of 80% CO2 and 20% O2. The process of living is not unlike combustion in that the body converts "food" using O2 to produce energy with a byproduct of CO2. The body needs to eliminate that byproduct through the lungs. If the partial pressure of CO2 is high, then the transfer of CO2 "out" can't happen (efficiently) and consequently the transfer of O2 "in" won't happen (enough). I have no idea what the ratios of partial pressure are that would result in problems are but suspect that they are finite. Please refer to the first sentence. BF "Dave" wrote in message ... On Sat, 12 Nov 2005 22:42:24 GMT, Rosalie B. said: Actually an excess of CO2 can be a problem, it's just a problem at a higher concentration than CO is. The IDLH (immediately dangerous to life and health) limit for CO2 is 40,000 ppm whereas CO has an IDLH of 1200 ppm CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. You're exhibiting the same confusion. The difference between CO2 and CO is that CO2 may displace oxygen in the air, reducing the oxygen concentration below the level required to sustain life. It is, as you say, an asphixiant, but is not a poison. I suspect that the assumption behind the figures you quote is that the remaining gas other than the CO2 is air. Unless I'm mistaken, you could live for an indefinite period breathing a mixture of 80% CO2 and 20% O2, just as you could live for an indefinite period breathing 80% helium and 20% O2. CO2, being inert, doesn't combine with anything in your blood's hemoglobin to block oxygen transport. CO on the other hand, is a true poison in that even if there is enough oxygen in the air to sustain life, the CO would prevent the blood from transporting the oxygen from the lungs to the brain and other organs. Matter of fact, O2 at high pressure and concentration is poisonous, leading to convulsions and ultimately death.. Most of the time what happens with O2 in excess of 23.5% is that there is so much danger of fire (asphalt becomes combustible in pure oxygen). The context I'm familiar with is diving, where part of the decompression process when you've been breathing helium oxygen mixture involves switching to pure O2 at the 60 ft. stop to reduce the partial pressure of the helium and flush it out of your system. Can't switch at lower depths because of the risk of O2 poisoning at higher pressures. |
Buddy Portable Catalytic Heater
On Sat, 12 Nov 2005 22:42:24 GMT, Rosalie B.
wrote: CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. /// grandma Rosalie I don't think this is quite right. An excess of nitrogen displacing oxygen leads to loss of consciousness - often without prior warning, while the cognitive response deterioration is not detected. An excess of CO2 however, leads to respiratory distress, possibly panting i.e. we have a physiological , maybe evolved response to the stuff. Brian Whatcott |
Buddy Portable Catalytic Heater
On 12 Nov 2005 17:26:02 -0600, Dave wrote:
On Sat, 12 Nov 2005 22:42:24 GMT, Rosalie B. said: Actually an excess of CO2 can be a problem, it's just a problem at a higher concentration than CO is. The IDLH (immediately dangerous to life and health) limit for CO2 is 40,000 ppm whereas CO has an IDLH of 1200 ppm CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. You're exhibiting the same confusion.... ? Have you tried a paper bag over the head for CO2 enrichment? :-) Brian W |
Buddy Portable Catalytic Heater
On 12 Nov 2005 19:18:03 -0600, Dave wrote:
On Sun, 13 Nov 2005 00:57:33 GMT, Brian Whatcott said: ? Have you tried a paper bag over the head for CO2 enrichment? Doesn't answer the question. The paper bag over the head will increase the CO2 as a percentage of the mixture and reduce the percentage of O2, rather than leaving both constant.. The question I thought I was addressing is the safety of room exhausted heaters. This was to note that we don't just flake out and die, but tend to get a respiratory alert when the CO2 proportion gets high. Presumably why the things are allowed under most codes. Brian Whatcott Altus OK |
Buddy Portable Catalytic Heater
Dave wrote:
On Sat, 12 Nov 2005 22:42:24 GMT, Rosalie B. said: Actually an excess of CO2 can be a problem, it's just a problem at a higher concentration than CO is. The IDLH (immediately dangerous to life and health) limit for CO2 is 40,000 ppm whereas CO has an IDLH of 1200 ppm CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. You're exhibiting the same confusion. The difference between CO2 and CO is that CO2 may displace oxygen in the air, reducing the oxygen concentration below the level required to sustain life. It is, as you say, an asphixiant, but is not a poison. I suspect that the assumption behind the figures you The figures I quoted came from NIOSH, and the ppm (parts per million) are in air. NIOSH's Immediately Dangerous to Life and Health mean just that -- 40,000 ppm would kill you even though that would be only ..04% if I've got my decimals correct. You could still have enough oxygen (20%) in air to sustain life even with that amount of carbon dioxide in the air, but you would have symptoms including headache, dizziness, restlessness, paresthesia; dyspnea (breathing difficulty); sweating, malaise (vague feeling of discomfort); increased heart rate, cardiac output, blood pressure; coma; asphyxia; convulsions; or frostbite (if it was liquid, or dry ice) quote is that the remaining gas other than the CO2 is air. Unless I'm mistaken, you could live for an indefinite period breathing a mixture of 80% CO2 and 20% O2, just as you could live for an indefinite period breathing 80% helium and 20% O2. CO2, being inert, doesn't combine with anything in your blood's hemoglobin to block oxygen transport. No you couldn't live for any period of time with that amount of CO2 in the air like you could with helium which is really an inert gas. It is a simple asphyxiant but you don't have to have 81% of it in the air to die from it. It screws up your brain's notice to the body to breathe. Any gas that displaces oxygen down below about 19% will asphyxiate you whether it is poisonous or not. For instance Freon or an excess of nitrogen will both do it. CO on the other hand, is a true poison in that even if there is enough oxygen in the air to sustain life, the CO would prevent the blood from transporting the oxygen from the lungs to the brain and other organs. Yes you can be poisoned by CO even in the presence of plenty of O2. Of course it is also true that any burning or other oxidation produces CO2, but when there's insufficient O2 to form CO2, the CO will be formed instead. Other poisonous gases are chlorine, and of course cyanide. Matter of fact, O2 at high pressure and concentration is poisonous, leading to convulsions and ultimately death.. Most of the time what happens with O2 in excess of 23.5% is that there is so much danger of fire (asphalt becomes combustible in pure oxygen). The context I'm familiar with is diving, where part of the decompression process when you've been breathing helium oxygen mixture involves switching to pure O2 at the 60 ft. stop to reduce the partial pressure of the helium and flush it out of your system. Can't switch at lower depths because of the risk of O2 poisoning at higher pressures. OK - I was thinking of industrial uses of pure oxygen. Big tanks of pure oxygen like they have in hospitals or places where they do a lot of oxyacetylene welding can cause fire problems. grandma Rosalie |
Buddy Portable Catalytic Heater
Would you mind explaining the occasion of your CO2 poisoning? I suspect that
you meant CO poisoning, just want to clarify or learn something new. BF "ahoy" wrote in message ... The mining people used to say men could work best at 23% oxygen, could work poorly but still keep going at 15% and at 13% they were taken out. When I was on oxygen after C02 poisoning they had someone in attendance to remove the mask every so often as the autonomic (?) brain stem part of your system that makes breathing automatic relies on the percentages being in proportion. Carbon dioxide level is the meter that tells you it's time to take another breath it seems. On Sun, 13 Nov 2005 01:54:33 GMT, Rosalie B. wrote: Dave wrote: On Sat, 12 Nov 2005 22:42:24 GMT, Rosalie B. said: Actually an excess of CO2 can be a problem, it's just a problem at a higher concentration than CO is. The IDLH (immediately dangerous to life and health) limit for CO2 is 40,000 ppm whereas CO has an IDLH of 1200 ppm CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. You're exhibiting the same confusion. The difference between CO2 and CO is that CO2 may displace oxygen in the air, reducing the oxygen concentration below the level required to sustain life. It is, as you say, an asphixiant, but is not a poison. I suspect that the assumption behind the figures you The figures I quoted came from NIOSH, and the ppm (parts per million) are in air. NIOSH's Immediately Dangerous to Life and Health mean just that -- 40,000 ppm would kill you even though that would be only .04% if I've got my decimals correct. You could still have enough oxygen (20%) in air to sustain life even with that amount of carbon dioxide in the air, but you would have symptoms including headache, dizziness, restlessness, paresthesia; dyspnea (breathing difficulty); sweating, malaise (vague feeling of discomfort); increased heart rate, cardiac output, blood pressure; coma; asphyxia; convulsions; or frostbite (if it was liquid, or dry ice) quote is that the remaining gas other than the CO2 is air. Unless I'm mistaken, you could live for an indefinite period breathing a mixture of 80% CO2 and 20% O2, just as you could live for an indefinite period breathing 80% helium and 20% O2. CO2, being inert, doesn't combine with anything in your blood's hemoglobin to block oxygen transport. No you couldn't live for any period of time with that amount of CO2 in the air like you could with helium which is really an inert gas. It is a simple asphyxiant but you don't have to have 81% of it in the air to die from it. It screws up your brain's notice to the body to breathe. Any gas that displaces oxygen down below about 19% will asphyxiate you whether it is poisonous or not. For instance Freon or an excess of nitrogen will both do it. CO on the other hand, is a true poison in that even if there is enough oxygen in the air to sustain life, the CO would prevent the blood from transporting the oxygen from the lungs to the brain and other organs. Yes you can be poisoned by CO even in the presence of plenty of O2. Of course it is also true that any burning or other oxidation produces CO2, but when there's insufficient O2 to form CO2, the CO will be formed instead. Other poisonous gases are chlorine, and of course cyanide. Matter of fact, O2 at high pressure and concentration is poisonous, leading to convulsions and ultimately death.. Most of the time what happens with O2 in excess of 23.5% is that there is so much danger of fire (asphalt becomes combustible in pure oxygen). The context I'm familiar with is diving, where part of the decompression process when you've been breathing helium oxygen mixture involves switching to pure O2 at the 60 ft. stop to reduce the partial pressure of the helium and flush it out of your system. Can't switch at lower depths because of the risk of O2 poisoning at higher pressures. OK - I was thinking of industrial uses of pure oxygen. Big tanks of pure oxygen like they have in hospitals or places where they do a lot of oxyacetylene welding can cause fire problems. grandma Rosalie |
Buddy Portable Catalytic Heater
"BF" wrote:
Would you mind explaining the occasion of your CO2 poisoning? I suspect that you meant CO poisoning, just want to clarify or learn something new. BF "ahoy" wrote in message .. . The mining people used to say men could work best at 23% oxygen, could work poorly but still keep going at 15% and at 13% they were taken out. 23% oxygen is too much. Normally it is 20% or 21% at the most. 19% is marginal. Oxygen content should be less than 23% but maintained at levels greater than 18%. 15% is WAY too little. Candles go out at about 16 percent; 15 percent is the approximate beginning level of dangerous hypoxia (lack of adequate body oxygen) with increasing, unrecognized grogginess. At 12 or 13 percent the situation is critical, and in 7 to 8 percent oxygen death is rapid. When I was on oxygen after C02 poisoning they had someone in attendance to remove the mask every so often as the autonomic (?) brain stem part of your system that makes breathing automatic relies on the percentages being in proportion. Carbon dioxide level is the meter that tells you it's time to take another breath it seems. Carbon dioxide in outdoor air averages about 400 mg/liter or parts per million. Carbon dioxide toxicity symptoms apparently appear at around 15,000 parts per million or 1.5% and above. OSHA has a Threshold Limit Value-Time Weighted Average (TLV-TWA), which is the time-weighted average concentration for a normal 8-hour workday and 40-hour workweek, to which nearly all workers may be repeatedly exposed, day after day, without adverse effect. The TLV-TWA for carbon dioxide is 5,000 parts per million (.5% or half a percent.) Carbon Dioxide (CO2) is the body's regulator of the breathing function. Any increase above the normal levels will cause accelerated breathing and heart rate. A concentration of 10% can cause respiratory paralysis and death within a few minutes. On Sun, 13 Nov 2005 01:54:33 GMT, Rosalie B. wrote: Dave wrote: On Sat, 12 Nov 2005 22:42:24 GMT, Rosalie B. said: Actually an excess of CO2 can be a problem, it's just a problem at a higher concentration than CO is. The IDLH (immediately dangerous to life and health) limit for CO2 is 40,000 ppm whereas CO has an IDLH of 1200 ppm CO2 is regarded as a simple asphixiant, just like an excess of nitrogen or any other inert gas. You're exhibiting the same confusion. The difference between CO2 and CO is that CO2 may displace oxygen in the air, reducing the oxygen concentration below the level required to sustain life. It is, as you say, an asphixiant, but is not a poison. I suspect that the assumption behind the figures you The figures I quoted came from NIOSH, and the ppm (parts per million) are in air. NIOSH's Immediately Dangerous to Life and Health mean just that -- 40,000 ppm would kill you even though that would be only .04% if I've got my decimals correct. You could still have enough oxygen (20%) in air to sustain life even with that amount of carbon dioxide in the air, but you would have symptoms including headache, dizziness, restlessness, paresthesia; dyspnea (breathing difficulty); sweating, malaise (vague feeling of discomfort); increased heart rate, cardiac output, blood pressure; coma; asphyxia; convulsions; or frostbite (if it was liquid, or dry ice) quote is that the remaining gas other than the CO2 is air. Unless I'm mistaken, you could live for an indefinite period breathing a mixture of 80% CO2 and 20% O2, just as you could live for an indefinite period breathing 80% helium and 20% O2. CO2, being inert, doesn't combine with anything in your blood's hemoglobin to block oxygen transport. No you couldn't live for any period of time with that amount of CO2 in the air like you could with helium which is really an inert gas. It is a simple asphyxiant but you don't have to have 81% of it in the air to die from it. It screws up your brain's notice to the body to breathe. Any gas that displaces oxygen down below about 19% will asphyxiate you whether it is poisonous or not. For instance Freon or an excess of nitrogen will both do it. CO on the other hand, is a true poison in that even if there is enough oxygen in the air to sustain life, the CO would prevent the blood from transporting the oxygen from the lungs to the brain and other organs. Yes you can be poisoned by CO even in the presence of plenty of O2. Of course it is also true that any burning or other oxidation produces CO2, but when there's insufficient O2 to form CO2, the CO will be formed instead. Other poisonous gases are chlorine, and of course cyanide. Matter of fact, O2 at high pressure and concentration is poisonous, leading to convulsions and ultimately death.. Most of the time what happens with O2 in excess of 23.5% is that there is so much danger of fire (asphalt becomes combustible in pure oxygen). The context I'm familiar with is diving, where part of the decompression process when you've been breathing helium oxygen mixture involves switching to pure O2 at the 60 ft. stop to reduce the partial pressure of the helium and flush it out of your system. Can't switch at lower depths because of the risk of O2 poisoning at higher pressures. OK - I was thinking of industrial uses of pure oxygen. Big tanks of pure oxygen like they have in hospitals or places where they do a lot of oxyacetylene welding can cause fire problems. grandma Rosalie grandma Rosalie |
Buddy Portable Catalytic Heater
"BF" wrote in
: Would you mind explaining the occasion of your CO2 poisoning? I suspect that you meant CO poisoning, just want to clarify or learn something new. BF CO2 is just as poisoning as CO. "We breathe out CO2 so it must be ok", they'll retort if you mention it. We breathe out a little CO2, not the output of a catalytic heater or CO2 extinguisher. I've seen Navy sailors with CO2 extinguishers overcome fighting a grease fire in the galley. The fire went out about the same time as the sailors....from CO2 and lack of oxygen. Please don't run UNVENTED heaters of any fuel inside the boat....Please? -- Larry |
Buddy Portable Catalytic Heater
Dave wrote:
On Sun, 13 Nov 2005 01:54:33 GMT, Rosalie B. said: Any gas that displaces oxygen down below about 19% will asphyxiate you whether it is poisonous or not. For instance Freon or an excess of nitrogen will both do it. No doubt about that. I was simply addressing the characterization of CO2 as a "poison." Anything in the world is a poison in the wrong quantities. Even water. So it is really immaterial whether CO2 is a poison or if it just asphyxiates you by displacing oxygen. In the case of CO, that really will severely impact your health at much lower levels than CO2, so I suppose one could call it a poison. Your 19% figure, by the way, is based on breathing at atmospheric pressure. When I was diving helium we would go below that level, with the percentage depending on the depth. Are you diving with a portable catalytic space heater? grandma Rosalie |
Buddy Portable Catalytic Heater
On Sun, 13 Nov 2005 01:54:33 GMT, Rosalie B.
wrote: ///NIOSH's Immediately Dangerous to Life and Health mean just that -- 40,000 ppm would kill you even though that would be only .04% if I've got my decimals correct. You could still have enough oxygen (20%) in air to sustain life /// grandma Rosalie Think of proportions this way: 40 thousand parts per million - is like 40 parts per thousand - is like 4 parts per hundred or 4% Brian Whatcott Altus OK |
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