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Why is "# Seasonal affective disorder" linked?

Garkbit (talk) 14:59, 10 August 2009 (UTC) Published research shows that high levels of negative ions are a useful treatment for Seasonal affective disorder[1] if the negative ions are in sufficient density (quantity). Note that this is a separate issue from air cleaning claims or ozone generation that happens in some devices that also generate negative ions. One of the pioneers in this area is Michael Terman, Ph.D., Director of the Center for Light Treatment and Biological Rhythms at Columbia University Medical Center and director of the Clinical Chronobiology Program at New York State Psychiatric Institute. As described in Psychiatry Online[2], Terman and several coworkers obtained preliminary evidence that a simulated dawn could reduce the symptoms of seasonal affective disorder. As a side effect of their research, they learned that that high-density negative air ionization could have the same effect. Clinical research has been published through Columbia University, American Journal of Psychiatry/APA, 2006[3] and Archives of General Psychiatry, Columbia University, and New York State Psychiatric Institute, 1998[4] and Journal of Alternative Complementary Medicine, Columbia University 1995.[5]

A negative ion generator (ioniser or ionizer) is not the same as an ozone (O3) generator although some ionisers do produce a small amount of ozone as a by-product. So to say that there are two types of ioniser and define that distinction by either ion production or ozone production is entirely incorrect.

The second paragraph is also incorrect. Whether a room is closed or open has nothing to do with an ionisers effacy. Ions live a very short life and the distance they travel is entirely down to the device emitting the ions. The more powerful the device the further they will travel. During their brief journey they will attract other positively charged molecules to them and form clusters, eventually falling from the air. Depending on the environment, they will also be stripped from the air by such things as metal ducting and monitors or TV sets. Those ions that remain in the "small" or "light" state are capable of being ingested by humans. These "small" ions will only exist at a very close proximity to the generator.

Do you know of some reliable references that we can use for this article? -Willmcw 11:51, 21 Dec 2004 (UTC)

Man. It is impossible to find realistic descriptions of how these devices work:

That last one looks good. Both the scientific and the practical issues seem to be handled accurately. A couple of those links go to industrial products. While their use as home air cleaners is subject to controversy, their use in industry for special purposes is accepted. One link goes to a ionizer-based (electrostatic) air filter for a forced-air system, which we should also mention and which are less controversial. Sharper Image has sold many ionizer based "fans" which move air silently without any ffan blades. I think their machine neutralizes the ions before they are omitted. Due to its commercial success it might get a mention. Thanks for doing this research. Cheers, -Willmcw 21:13, July 18, 2005 (UTC)

It seems to me that to get this article into a useful and neutral state, it should be rewritten into three main sections. The first should explain what these devices are. There seems to be little dispute on this page that these devices (a) generate a negative electrical charge, (b) cause some dust and bacteria to be removed from the air of a room, and (c) lead to the creation of a certain amount of ozone. The second section should document the claimed health benefits, including the basis for the claims, substantiation and so forth. The third would list criticisms of the devices, including problems with the claimed benefits and also the possible negative effects (such as the creation of ozone). Since there is obviously no consensus on the ozone level issue, the page should say as much, with citations to various government ozone regs and the CU report.

Also, the article should be updated to include the fact that Sharper Image (the main purveyor of these devices in the U.S.) is now marketing an add-on to their devices which claims to convert the ozone back into oxygen. mpmason68 15:45, July 9, 2006 (UTC)

References

Types of ions

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http://www.webmd.com/content/article/65/72756.htm?lastselectedguid=%7B5FE84E90-BC77-4056-A91C-9531713CA348%7D This article espouses the claim made in this article that negative ions like those after thunderstorms and beneath waterfalls increases well-being according to research.

Are there really two different kinds? I think "creating air ions" is exactly the same thing as "creating ozone", since the ionic oxygen quickly recombines with oxygen molecules to produce ozone. Then again, I don't really remember my chemistry. - Omegatron July 2, 2005 20:39 (UTC)

Some of this is left over from what was clearly an advertisement for a particular ioniser that claimed it emitted a special kind of ions. This article could use a careful review by an editor knowledgeable in chemistry. -Willmcw July 2, 2005 21:42 (UTC)

There are indeed two types of ions: Cations, which have a positive charge, and anions, which have a negative charge. But there are more than two types of marketing nonsense... I used to work on negative ioniser designs years ago, with a bias towards the medical applications of same, and though a lot of people would show an improvement in wound healing rate or reduction in wound scarring, some users would see no benefit, and some users would report a worsening of symptoms. For the latter group a limited degree of success was sometimes to be had by the trusty sci-fi standby of "reversing the polarity" to produce positive ions. This is fairly simple to do with the standard ioniser design that utilises a Cockcroft-Walton ladder to produce the required high voltages. -Midgemagnet Dec 6, 2005, 17:22 (GMT)

To correct Midgemagnet, it is Cations, which have a negative charge, and anions that have the positive charge -Guest Jun 2, 2006, 18:58 (GMT)

Not true. Midgemagnet's statement was alright: cations are positively charged and anions are negatively charged. These two are sometimes confused by people due to the fact that anions are attracted by anode, which is positively charged and cations are attracted to cathode, which is negatively charged. Natrij 20:19, 11 June 2006 (UTC)[reply]

Actually, anodes and cathodes can both be either positively charged or negatively charged. It only depends on the direction of the current. In a battery acting as a power supply the anode is the negative end of the battery, but in an LED (that is in forward conduction) the anode is the positive end. In either case, electrons are leaving the anode. So, an anion (negative charge) is only attracted to some kinds of anodes. -Minipie8 02:22, 28 June 2006 (UTC)[reply]

Physics major here. The confusion above is due to different conventions for what is "positive" charge and what is "negative" charge. Although *standard electrical convention* says "current flows from positive to negative", in reality, what is flowing are electrons, from negative to positive. Anions are molecules which have gained electrons. They are negatively charged by the chemistry convention, and positively charged by the electricity convention. I'm working on getting this fixed in 60 years. 71.82.81.234 (talk) 07:46, 16 November 2012 (UTC)[reply]

Patents

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Kronos Advanced Technologies supposedly makes fan replacements that work on this principle:

U.S. patent 6,919,698 July 19, 2005 Electrostatic fluid accelerator for and method of controlling a fluid flow

U.S. patent 6,888,314 May 3, 2005 Electrostatic fluid accelerator

U.S. patent 6,727,657 April 27, 2004 Electrostatic fluid accelerator for and a method of controlling fluid flow

U.S. patent 6,504,308 January 7, 2003 Electrostatic fluid accelerator

Others:

Sharper Image Corporation

U.S. patent 6,911,186 June 28, 2005 Electro-kinetic air transporter and conditioner device with enhanced housing configuration and enhanced anti-microorganism capability

U.S. patent 6,908,501 June 21, 2005 Electrode self-cleaning mechanism for air conditioner devices

U.S. patent 6,896,853 May 24, 2005 Personal electro-kinetic air transporter-conditioner

U.S. patent 6,713,026 March 30, 2004 Electro-kinetic air transporter-conditioner

U.S. patent 6,709,484 March 23, 2004 Electrode self-cleaning mechanism for electro-kinetic air transporter conditioner devices

Zenion Industries, Inc.

U.S. patent 6,897,617 May 24, 2005 Method and apparatus to reduce ozone production in ion wind device

And the exact opposite device, a generator charged by wind:

U.S. patent 4,206,396 June 3, 1980 Charged aerosol generator with uni-electrode source

Patents don’t prove that something works. They’re just a form of protection for designs for inventions. It is even possible to patent the impossible. — NRen2k5 20:51, 21 September 2007 (UTC)[reply]

Dangers of Ionisers not mentioned.

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Hakusa - Wiki addict: 08:31, September 10, 2005 (UTC) I was thinking of adding them, but thought I would check it in the discusion page first. I went to my school library and borrowed a Consumer's Report May 05. In it I read an artical about how ionizing air filters are hazzardous to your health. How while having one in a spacious house was better, but putting it close to a chair or social area like suggested could be very bad. Appereantly ions are toxic: somthing I remember from Bio I. Now I won't quote things from the entire magazine, and if you really care you can go and read the artical yourself. I did however notice that the article mentions the consumer's Report being unfavorable, but it doesn't mention what they said, or anything I just said. Why?

I believe they create ozone, which is poisonous and kills bacteria, but is also poisonous and kills people.  :-) It does say this in the article, but the article needs work. If you could add some information from the CR artice that would be great. — Omegatron 14:49, September 10, 2005 (UTC)
Hakusa - Wiki addict: 20:17, 14 September 2005 (UTC) I was gonna do it, but I don't have the time right now. Sorry.[reply]
I actually read the paper copy of the report. The beef was "unacceptably" high levels of ozone from a vast majority of the ionizers. They also only marked two as decent filtration units out of however many they tested; I can't remember which specific models. Really good units have a ion collector behind the particle collection grid to pick up any stray charged particles. -- Toastydeath 17:51, 29 June 2006 (UTC)[reply]

Midgemagnet 17:24 (BST) 6 Dec 2005. Indeed; I have added references to the dangers of ozone in the main entry. Claiming health benefits for environmental ozone generators is just dangerous misinformation.

This article on the BBC website discusses inadvertant ozone production and the various bodies that are looking into it. http://news.bbc.co.uk/1/hi/health/3472383.stm --Wool Bridge (talk) 12:31, 11 December 2014 (UTC)[reply]

Safe Ionizers

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The Oreck XL claims to have an "oxygenator" that turns Ozone into oxygen while still purifying and ionizing the air. Is this a lie or are there safe ionizers? And if it's true shouldn't the article state that there may be safe ionizers rather than be bias towards the dangers? 71.113.106.248

ionic vs ozone

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From chemistry lessons, it has been taught that ions are identified as those pesky 2-letter names with the 2+ and 3+ superscripted next to the metal name: Fe2+ with the 2+ superscripted to show iron ions, Cl- with the - superscripted to show chlorine ion.

Ozone on the other hand is a molecule, created by a combination of 3 oxygen atoms (O3 with the 3 subscripted). Ozone is likely to generate radicals which have tendencies to be oxidizing agents or in other words be corrosive in manner. A short read up on the ozone layer in school textboks will give you a general understanding of what ozone is, how it is formed naturally and why the ozone layer is thinning out at areas above the polar caps.

Whereas most air purifier companies use mechanical filtration, some air purifier companies believe that filtering the air inside the room is not enough. Instead, they manufacture air purifiers which generate negative ions to interact with the positive ions in the air. Someone must have figured out that pollutants in the air, including tobacco smoke and even dust, naturally has positive ion charges. Thus, the generation of negative ions to cancel out these hazardous pollutants, making them falling to the ground and out of the air we breathe in, is the right way ( at least to them ) to purify the air.

Regarding ozone generators, the idea is that ozone is produced from a TiO2 plate by ultraviolet light. These ozone molecules have the oxidising power to kill off airborne pathogens which is good news for us and bad news for the microorganisms. However, since ozone has that effect on bacteria and viruses which are living organisms, wouldn't they have the same effect on humans as well? Is it safe for us humans to be exposed to these ozone molecules every single day for long hours every single time? Some of these air purifier users stated that they smell the bleached smell which they themselves identify as ozone, whilst others testify that all they smell is fresh air.

Hope this information helps. Sylee 06:15, October 16, 2005 (UTC)

Hakusa - Wiki addict: 04:01, 17 October 2005 (UTC) That sounds about right, but Consermers Report sais that you will breath in ozone, and it is toxic.[reply]

Yes, ozone is toxic. I'm interested in whether these devices actually output ions. It's difficult to say, really. If they put out only negative ions, for instance, then the device would continue to become more and more positively charged. If they pumped the charge out of a ground wire, though, they would be making the Earth itself positively charged, and maybe that would be the way the ions stick to dust and then the dust is attracted to other objects. I wish I knew more about the properties of charged particles in air. — Omegatron 04:19, 17 October 2005 (UTC)[reply]

I'd like to help with this article but I can't say I know any more about the subject than any other editors here. I've changed the template because there doesn't appear to be any actual disputes. Hopefully we'll get an expert soon! --Eirinn 12:12, 23 October 2005 (UTC)[reply]

Well, I'm a physicist, and this whole article looks like a lot of BS to me. Regards.

Midgemagnet 17:27 (GMT) 6 Dec 2005. I'm an electronic engineer, and I used to design ionisers (comissioned, I hasten to add). I agree there is an awful lot of BS attached to ioniser lore, and bad designs can produce nasty levels of ozone. However, many people experience real health benefits by having one running in their bedroom at night, and I've seen some rather neat research with hospital patients (operation wounds, large burns) where direct application of a high negative voltage and local exposure to negatively ionised air noticably speeds up the healing process in most cases.

I've taken the liberty of claiming expert status (in the absence of anyone better qualified), and have hacked the article into some sort of approximate shape. Needs more work to be a proper reference though.

This article has an entire section on why ozone is bad for you, but I don't see how that is actually relevant to the subject at hand. Yes ozone is dangerous in high doses, but nothing about the article suggests that the amount of ozone produced by an air ionizer is anywhere near a level considered to be toxic, in which case it seems like a weasel section. TheWhiteCrowsShadow 21:57, 16 August 2007 (UTC)[reply]

Have a look at this: http://news.bbc.co.uk/1/hi/health/3472383.stm --Wool Bridge (talk) 12:35, 11 December 2014 (UTC)[reply]

Problems with current version

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Hey guys. I'm going to try and update this with answers to all these questions, and leave it to the experienced wikipedians to update the article as they see fit. I'm going to get positive/negative mixed up a lot because they mean different things depending on whose perspective you are looking at it from. Please forgive me if i flip them once in awhile. Also, in some of this, remember that voltage is a potential for flow - it does not necessarily mean that having a "charged plate" indicates a pile of extra electrons or a deficit. It's just describing what the system wants to do, not what it is doing. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]

I got my physics messed up on the exact interactions - there's no current flow, anywhere. The atoms pick up energy as they go through the EM feild around the corona wire, and eventually pick up enough eV's to emit an electron. I'm going to go back and modify all my responses to reflect this. Also, pardon the different IP. I'm at work. -- toastydeath 209.122.172.254 14:48, 29 June 2006 (UTC) Addendum: O hey, now I'm a real user. Toastydeath 17:41, 29 June 2006 (UTC)[reply]

  1. a device which ionises air.
This isn't a problem, that's really what they do. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
  1. But do the ions escape into the room or do they discharge inside the device, leaving only ozone and NOx to escape into the room?
Most of the ions hit the collection grid and become part of the device itself. Some of the stuff gets out, and then you smell ozone. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
  1. Despite dubious marketing claims to the contrary, ionic wind plays no part in the process, as may be evidenced by the tiny breeze near the ioniser emitter.
True. If NASA and ion thrusters are having a hard time getting signifigant ionic wind, then a dinky $100 air purifier isn't going to be knocking anything off your desk. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
  1. If there's a breeze generated by the electronics alone, then how is that not an ionic wind?
  2. An air ioniser also generates negative ions by exposing air to a high negative voltage
I don't see what the problem with this is. The positive (voltage wise, indicating flow direction) electrode kicks a (negative electrically) electron off an atom, which makes the atom (electrically) positive. The now positive atom is then repelled by the positive wire, which is sucked into the negative collection grid. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
  1. Can the device expel negative ions continuously into the air without becoming charged? Is it replenishing the missing charge by connecting to the ground? Do the expelled ions then travel back to the earth to complete the circuit? — Omegatron 19:13, 6 December 2005 (UTC)[reply]
The air is becoming charged; that is the principle mechanism on which these devices operate. The electron that gets emmitted from the ion gained energy by passing through the high voltage EM field surrounding the corona wire. Once the energy in the field has been transferred to the ion, the transformer draws more current to move the field back to it's origional strength. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]

Midgemagnet 21:03, 6 December 2005 (GMT)- in reply:

1) Ionisers create ions by either adding electrons to atoms/molecules (giving negatively charged anions) or stripping electrons from atoms/molecules (giving positively charged cations). It's the electric field strength that does the ionising. The emitters on ionisers are invariably pointed (like a needle) or bristly (like a carbon fibre or wire brush) as electric charge concentrates more on the sharp area of a surface, and so the electric field strength near a sharp emitter will be quite high, and any atoms that stray too close will be ionised.

They only strip electrons in this style of device. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
In order to generate a strong potential gradient you would need a strong potential difference, right? So there is a positive electrode in there somewhere. So the negative ions would go right to the positive electrode and discharge, wouldn't they? — Omegatron 21:54, 6 December 2005 (UTC)[reply]

2) The strength of the ion wind from a domestic ioniser is feeble, and would play a negligible part in shifting air about a room. It does, however, play a small part in keeping the air local to the emitter turning over, so in this respect it is useful in raising the ionisers efficiency, but the wind itself doesn't extend beyond a few centimetres. A draught through a keyhole would be many times stronger.

3) Yes, the ioniser case may become slightly charged. I've seen early (expensive) ioniser models in wooden cases with rubber feet giving people static shocks from touching the case. Wood is a poor insulator, BTW, as well as a poor conductor. But the case will never become as charged as the emitter, and as long as the emitter is clean the ioniser will function as intended.

There isn't necessarily a return circuit for the emitted electrons from a negative ioniser. They just attach themselves to atoms and float about.

But you can't just suck electrons out of an object forever. There has to be a return circuit of some type, or the ionizer would just become more and more positively charged until it no longer worked (because it would be too positively charged for any negative charge to escape from it).
The power supply creates a large voltage differential between the corona wire and the collection plate. Remember, a voltage just indicates what will happen if the electrons are given a path to flow (it's a stationary electromagnetic field if no current is flowing). This difference becomes so great that, like in your television or in a plasma torch, the corona wire deposits enough energy into the nearby molecules to kick an electron out of some poor atom's valence shell. Then, our adventureous electron goes flying at very high speed out into space. The poor atom (hopefully part of a dust mote) is now an ion, and is at first repelled by the corona wire and then attracted to the collection plate. The ion's life is determined by the actual electrical properties of the material that got charged. Highly reactive, short lived ions are called radicals. Additionally, when the ion contacts the collection plate, it assumes the same charge as the plate, effectively becoming part of the collection grid. That's why they work when they're covered in crap. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
Note that I'm not a physicist or chemist; just an electrical engineer, so my understanding of the behavior of ions in air is not very good. — Omegatron 21:54, 6 December 2005 (UTC)[reply]
There seem to be different types of air ionizers and different theories of how they work. Someone who knows should really update the article. The only undisputed facts I can gather are:
  • The devices involve high voltages
  • They create ozone and nitrogen oxides, which kill bacteria, but are also toxic to people. Whether this is a side effect or the intended effect is disputed.
Unanswered questions:
  • Does the device "purify" the air in other ways, like removing dust and bacteria from it?
Only if the ion hits the bacteria and kills it (i.e., floats through the apparatus). Otherwise, it'll just hang out as part of the collection grid. Yes, dust is removed from the air, along with anything else that happens to float past. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
  • Does the device involve two oppositely-charged electrodes or only one electrode that is at a high voltage relative to the Earth?
Two electrodes. The corona wire and the plates are on the positive and negative side of the power supply. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
  • Are the dust particles attracted to the other electrode (how does it stay clean?) or are they charged and then attracted to other neutral objects in the room? (I've heard rumors of stains on the walls near these machines.)
Ionization only goes one way in this case - it kicks an electron off an atom. Anions (negative ions) require a different process to produce that I'm not familiar with. -- toastydeath 69.138.207.55 07:38, 29 June 2006 (UTC)[reply]
Actually, I have heard that the answer is that they don't stay clean, for what it's worthJeremy RBC 00:16, 31 August 2006 (UTC)[reply]
  • If the device is emitting ions into the room, which are then attracted to the Earth (or other objects in the room), are they positive or negative ions? Can it emit both at the same time? (Do ions in a neutral fluid rapidly move towards oppositely charged objects and neutralize, or are they slowed down by the collisions with neutral particles and only slowly drift towards other objects? Would a positive and negative ion neutralize on contact, or does it depend on other factors?)
See above. They're all down one electron. The ions want to either react with things, or gain an electron in some other way. Eventually, a spare electron will be found on something and it will no longer be an ion. Ions themselves will float around until they find either a strong electromagnetic field to move them, until they react with something, or until they gain an electron back.
It's actually more complex than it seems, and only physicists or chemists who really understand ionization and electrohydrodynamics really know what's going on. (And I am not one of them, obviously.) — Omegatron 17:13, 24 February 2006 (UTC)[reply]

I've been doing some research on air stuff over the last couple of months, and I think I understand a little bit here. On the other hand, I am a total newbie (but I 'did' read through the relevant wiki background). I'm going to try and clear some things up in the article about the ozone, but here's what I know about ionizers:

  • ASHRAE and the relevant U.S. medical societies have yet to embrace ionizers because they just aren't as effective as filters and ventilators are at removing junk from the air.
    • The fundamental problem is that the electrostatic plates lose efficiency whenever they get loaded, save for the really nice ones (which tend to be much more expensive than a filter or ventilator solution would be).
  • Many ionisers produce ozone, which absolutely is toxic.
  • I believe that just about every major HVAC system manufacturer makes some sort of ionizer for residential HVAC systems. It's typically a part of the filter box, and is considered an add-on. Jeremy RBC 00:16, 31 August 2006 (UTC)[reply]
    • Strike that, I meant electrostatic filter for the major manufacturers. Anyway, I went through and made some major changes. I think this should be a little more reference-grounded now.
    • A bunch of those claims were dubious at best. I moved them to a "manufacturer claims" bullet point in the criticism. If anyone has a shred of credible evidence for any of those points, by all means move them to the main section (with references and better explaination of how they could possibly be true). Jeremy RBC 03:21, 31 August 2006 (UTC)[reply]
One other thing (I commented it in the article, but wanted to bring it up here). That second sentence seemed to say that ionizers make particles with both + and - charges concurrently. That doesn't seem possible to me, since it'd just be a neutral particle. Not that I don't think a ionizer salesman wouldn't use it as a selling point (dehydrated water, anyone?), but I want to be sure that I didn't change the original intent of the statement.
As rewritten, it says that ionizers can be either/or (i.e. -, +, or 50%/50%). Is this right? If so, I'd say leave it where it is. If not, I say revert it and move it to the criticisms section with an explanation of why. Jeremy RBC 18:08, 31 August 2006 (UTC)[reply]
No. It would be creating both negatively charged particles and positively charged particles, from each electrode. This would create ozone and attract dust just like the other types, before the particles could "find" each other and neutralize. I don't know what happens in real life systems, though. No one here seems to know what's really going on. — Omegatron 19:12, 31 August 2006 (UTC)[reply]

name wrong

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http://wiki.riteme.site/wiki/Water_ionizer <<see plz Ionizing Ionize http://dictionary.reference.com/search?r=2&q=Ionizer http://dictionary.reference.com/search?q=Ionaser =RETURNS INVALID Main Entry: ion�ize Variant: or chiefly British ion�ise /'I-&-"nIz/ (probably brits editing?) Results 1 - 9 of about 10 for ionaser. Google Results 1 - 35 of about 293 for ionazer. Google 0 results for Iionasers Google Results 1 - 100 of about 434,000 for ionizers Google The name is Ionizer not "Ioniser", and the article whould either point out that benefits of ionizing is zero,or there is some effect(like the bacteria case,they just end up on surface near ionizer)and if its better then air filters which clear the dust and not make it precipiate on surface.

This need some category on Junk science devices/paranormal effect devices/deus ex machina or something.I'd better buy a air filter( a purifier,hopefully HEPA compliant)

"Ioniser" is the British spelling. We use both spellings here, depending on the subject of an article and who contributed to it first. — Omegatron 15:30, 29 January 2006 (UTC)[reply]

That is the dumbest thing I have ever heard. Use "Ionizer" , "Ioniser" isn't even in the American Heritage Dictionary. Spelling it "Ioniser" effects the integrity of the website you dumbshits.

The correct word is "affects" in this context. You might want to look at the usage note for "affect" in the American Heritage Dictionary. — Omegatron 15:51, 31 August 2006 (UTC)[reply]
I replied on your talk page. — Omegatron 18:24, 21 July 2006 (UTC)[reply]

For the record, I'm an American, I think the title looks weird, but I'll still revert any attempts to change it. Our policies exist to prevent stale, pointless arguments like this. — Omegatron 19:18, 25 July 2006 (UTC)[reply]


  • That is the dumbest thing I have ever heard. Use "Ionizer" , "Ioniser" isn't even in the American Heritage Dictionary. Spelling it "Ioniser" effects the integrity of the website you dumbshits.

I just have to say this is the most ignorant comment I have ever heard or read. So because it isn't in your precious American dictionary, it doesn't exist? And the use of profanity hardly strengthens your argument either. No wonder Americans have the reputation overseas of being loud, ignorant and brash; with every stereotype there is always a grain of truth, and clearly the author of this comment is the grain.User:Jaganath 21:48, 16 August 2006 (UTC)[reply]

Since you're new, you should know that in general it's better to just ignore people like this.  :-) — Omegatron 15:51, 31 August 2006 (UTC)[reply]

Dubious

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Despite dubious marketing claims to the contrary, ionic wind plays no part in the process, as may be evidenced by the tiny breeze near the ioniser emitter.

How is the presence of wind evidence against ionic wind?? — Omegatron 18:36, 31 May 2006 (UTC)[reply]
Yeah, I don't get that either. However, we're talking about magnetic forces on the level of static on a CRT TV screen. It's not going to make wind. Jeremy RBC 03:21, 31 August 2006 (UTC)[reply]
But "ionic wind" just means a movement of air caused by electrostatic forces. Breeze or gust or whatever, if the air is moving, it is an ionic wind. — Omegatron 15:54, 31 August 2006 (UTC)[reply]
Speaking from experience with several of the products, most of these definitely do move air. That XJ2000 is a closed plastic shell, and moves so little air it could be considered negligible, however the Sharper Image one, and others that have an open design can kick out airflow in CFM comparable to a 200mA 12V computer fan. My only beef is the reports of NOx being produced. If that's even true, it is in such small amounts that it's not detectable through smell, which would lead me to believe it's below the cutoff level for a safe amount. Kel - Ex-web.god 10:07, 3 October 2007 (UTC)[reply]

Advances in Technology - German ionisers

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New ionisers from Germany uses the DBD corona system to produce negative ions, but they are now able to control Ozone emission. They carry the TUV and GS certification [German Safety] and the new tecnology is patented [dpma.de] in Germany. They are now fitted into airconditioners, fridges and even tumble dryers. EPA is lagging behind the EU and Japan again. toyo

Recent edit: "air molecule" to "particle"

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I have a feeling this may come back later, so I want to go on the record here in Talk and clear up some terms regarding this recent wording change. Ions are not necessarily single, lonely atoms - there are monatomic ions and polyatomic ions (ionized molecules such as SO4). However, molecules ARE particles. They're just not fundamental particles, but they are particles nonetheless. Just as hadrons (protons, neutrons) are particles, even though they are themselves comprised of yet other fermions and bosons. Despite this, inserting "particle" was the accidental right thing to do, even if it was inserted for the wrong reasons. - Toastydeath 09:21, 2 January 2007 (UTC)[reply]

In this context, "particle" means "dust or smoke particle", though. Using particle again in that sentence is misleading. — Omegatron 18:50, 2 January 2007 (UTC)[reply]

Home use application

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I'm looking at my mother-in-law's Edenpure G-7 purifier manual and it has an O3 generator for purification and an additional "Anion" feature that turns off the "activated oxygen" generator and turns on the "negative" generator. It just doesn't say what the negative generator is good for or when to use it. The germicidal UV lamp is for sanitizing. If my Father-in-law has compromised lungs, looks like they need to keep the O3 (ozone) generator turned off?76.213.174.119 06:11, 8 January 2007 (UTC)[reply]

I wouldn't use any ionic air purifier for someone with compromised lungs. I would use a HEPA filter. -Toastydeath 15:01, 8 January 2007 (UTC)[reply]
Don't quote me on it, but it sounds like something to neutralize stray O3 particles. You absolutely don't want to pump ozone into the room – it's toxic, and would only irritate your father-in-law's lungs further. Some companies will try to convince customers that ozone has benefits to your health...this is demonstrably false, and is rejected by all credible health organizations. Not that ozone is necessarily useless for the cleaning process (that's a separate debate), you just have to be 100% sure that none of it escapes the machine. Why risk it, though? HEPA works very well, is endorsed by ASHRAE and other governance boards, and is the best bet for cleaner air. Jeremy RBC 16:51, 31 January 2007 (UTC)[reply]

Cleanup

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I was going to tag this with one of the cleanup tags, but decided to let someone more exper. do so. The section titled Ionic Air Purifiers starts with criticism in the 2nd sentence. Then there is a section titled Criticism which is a bulleted list. Would it not be more encyclopedic to either place all the criticism under the appropriate heading and re-write as a paragraph? Alternatively, both sections are rather sparse and could be combined into a coherent discussion of the documented merits and criticisms. Additionally, the large(ish) section distinguishing air ionizers from ozone generators seems irrelevant. Is this a common error I'm totally unaware of? I've seen many an ionic air purifier, and I've yet to see or hear of an ozone generator. At most, I suggest a single sentence up top in the intro with a link to the ozone generator article. Superbeecat 19:35, 27 June 2007 (UTC)[reply]

The use of OZONE in ozone generators is not generally toxic unless the gas itself is inhaled. It also destroys airborne organisms when it contacts them. Since it is highly reactive it dissipates quickly itself (on contact with contaminates) turning the level of ozone back to normal.

Would I be wrong to add this into the article?

Yes, because that's like saying nerve gas is not generally toxic unless inhaled. The sanitizing power of ozone is very well known and documented, and that is not under debate. Ozone does not dissipate quickly enough to be used in an occupied space, and that is the issue. It's also why lawsuits have been successful against companies marketing ozone-generating products to the public. - Toastydeath (talk) 21:15, 13 January 2008 (UTC)[reply]


Oh really? I thought lawsuits were decided by corrupt judges awarded to the highest bidder. Maybe I found my way back to the home of the brave, land of the free. Or maybe your comment is BS and really, oxidative medicine is being suppressed by the eSTABlishment. That last one sounds most likely. I breathe ozone streaming out of my 7000mcg/hr Ozonator every day. It sharpens my mind and gives me motivation to exercise. All this down talk of ozone is disinfo. The level of ozone that really damages a person is massive and extreme. Ozone will kill microorganisms that harsh your life far easier than it will kill you. It takes a LOT of ozone to injure the lungs. When you reach that level of exposure you will feel it and it's easy enough to open a window and step out of the room. I breathe ozone fog EVERYDAY. My cats go spastic after I run the ozonator for a little while. It's when they're the most active and playful. I have hundreds of hours of video of my cats spastic activity when they're able to breathe a bit of ozone. Danielvincentkelley (talk) 19:15, 24 January 2012 (UTC)[reply]

Ioniser

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The ionizer vs. ioniser issue lowers the quality of both the article and wikipedia. You have a water ionizer article but an air ioniser article. "Ioniser" is used 5 times in the article versus 9 times for "ionizer".

If the policies are preventing us from improving the quality of wikipedia then they should be ignored.

Perhaps there should be a british wikipedia version and an american english version. One of them would be automatically derived. Like wiki.riteme.site sites would be american english pages, and br-wiki.riteme.site pages would substitute british spellings except where not appropriate.

I feel changing everything to "ionizer" would improve the quality of wikipedia, and I will act (strongly) on this assumption before 2010 ends if I remain unconvinced otherwise. Is there anything else I should be considering?

75.31.69.72 (talk) 00:47, 15 July 2010 (UTC)[reply]

I have standardised the spellings to British ones to match the article title. We shouldn't mix varieties of English in one article. JonCTalk 11:00, 28 October 2011 (UTC)[reply]

Ion Generators

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Is it possible to say that Ion Generators like the Sharp Plasmacluster are not like ionisers, because they generate positive and negative ions. The product This is a different technology which does not claim a negative ion benefit, but which claims to kill harmful airborn bacteria etc. and was developed to fight against bird flu. Maybe this should have its own page. --Wool Bridge (talk) 13:00, 30 January 2013 (UTC)[reply]

Please look at this video relating to Ion generator removing virus at a University in London http://www.youtube.com/watch?v=m2X9n9Oay34 it tries to explain what the ions are but relies on pairs of ions to damage the virus. — Preceding unsigned comment added by ‎Wool Bridge (talkcontribs) 21:10, 6 July 2013

Better than a you-tube video would be a WP:reliable source discussing the concept. Vsmith (talk) 22:28, 6 July 2013 (UTC)[reply]

There is this press release with Professor John Oxford: http://sharp-world.com/corporate/news/080827.html http://www.sharpindialimited.com/FINAL_H1N1_English.pdf --Wool Bridge (talk) 11:58, 17 November 2014 (UTC)[reply]

There is also the Samsung ion device which is also a plasmaclustre device: http://www.viruszero.com/

Plasmacluster Ion Technology is sometimes mistaken as the same technology found in an ioniser but the difference and advantages of the Plasmacluster is this: An air ionizer creates only Negative Ions, causing them to magnetically attract together. With negative ions, you do not inactivate any contaminants, but simply add weight to the particles so that they drop to the ground,but they are still alive and can harm you. When these airborne contaminants are made heavy, they can fall on any surface be it your food, table, furnishings etc. https://www.sharpproducts.in/pdf/how_is_the_sharp_air_purifier_superior_advanced.pdf --Wool Bridge (talk) 15:10, 5 October 2016 (UTC)[reply]

Actual Ions Generated

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What are the actual ions generated by these devices? "Air ion" does not really have a meaning. Is it hydride, oxide, nitride, ...? Without naming the actual ion(s) created leads me to be very skeptical, especially since all of the literature I could find seemed to be more marketing than science and I did not find anything to even allude to what is really created. I also started looking at the authors once I started getting skeptical and did not find any chemists. --Jbaylor (talk) 21:46, 3 March 2013 (UTC)[reply]

Air ion (afaik) means that the air molecule has gained or lost an electron. For instance, N2+ or O2- would be considered air ions. ~Adjwilley (talk) 22:05, 3 March 2013 (UTC)[reply]
I understand that a negative ion is an element or molecule with one or more electrons than protons, but air is a mixture of gasses, not an element or molecule. It is 78.1% N2, 20.9% O2, 0.9 Ar, etc. (from Atmosphere_of_Earth). That is why it is confusing for me to see "air ion". Are you saying that the ions produced are the nitrogen and oxygen ions? I apologize if I am being dense, I am just trying to understand the concept beyond the marketing hype. Thanks --Jbaylor (talk) 07:00, 4 March 2013 (UTC)[reply]

Needs to say if it is O2- and N+ or what. In Plasmacluster Ion Technology it is the water in the air that gets ionised producing H+ and O2- (as well as free radical HOO- I think, which then turns into water.). There is a Samsung Plasmacluster Plus technology animation that discusses this. https://www.youtube.com/watch?v=4qu2MaTQ9AY --But this is not AIR Ionisation. --Wool Bridge (talk) 15:56, 8 January 2015 (UTC)[reply]

C A 'Coppy' Laws inventor of Ioniser

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Is it possible to make a reference to C A 'Coppy' Laws inventor of Ioniser? I want to link it to this article: Cecil Alfred 'Coppy' Laws

— Preceding unsigned comment added by Wool Bridge (talkcontribs) 17:07, 4 July 2013‎
Quite possible. However, you should perhaps work on that article first as it currently has multiple problems. Vsmith (talk) 22:20, 6 July 2013 (UTC)[reply]

It is now linked to other articles and other articles do link to it. The robot that attaches notices like that has not noticed yet. What other problems does it have? I also wish to see added the study done in London University of the Sharp Plasmacluster technology (see above) which updated the Leeds Study that was done by Coppy Laws' sons (mentioned in this article) there are some good animations from Sharp showing how the O and H ions merge on the surface of a virus to form H2O. Also would like to investigate claims by the inventor of the Elanra ioniser that the small ions it claims to generate are breathable and enter the blood stream to universal benefit. These claims were ridiculed by Ben Goldacre in his Bad Science column for the Guardian a while ago. Someone who knows about electro medicine and electricity and elctro-chemical reactions in the body might tell us that the ions in blood stream idea is or is not scientific nonsense. The Elanra website has some nice graphics somewhere explaining the theory.--Wool Bridge (talk) 22:07, 7 July 2013 (UTC)[reply]

Don't know about all that, the major problem is the lack of WP:reliable sources. I've removed one ref to a commercial website as non-WP:RS and the google books ref is rather a problem - need a more specific ref to the book in question with page numbers. The Elanra website you mention above is a commercial website and we aren't here to promote their stuff. Laws seems like an interesting and quite likely notable guy, but better sources are required and we don't need a bio article used to promote a specific commercial product. Vsmith (talk) 01:41, 8 July 2013 (UTC)[reply]

The references are from the Pat Williams obituary on Coppy Laws in the Independent 2002. At the moment this is only searchable through pay sites. The author sent me her original article so I am quoting from that. I can get a scan of the printed article and upload it maybe? The Elanra claims which were ridiculed by Ben Goldacre in the Guardian can me mentioned in that context. They may or may not be true but it is a controversy and not promotion of a commercial device. The device in question is no longer made any way. The Medion ioniser in the picture is historic and no longer a commercial product. The Google books reference can be replaced by a PDF of the same thing which is uploaded somewhere I just have to find it. The Japanese electronics giant Sharp seems to have inherited this technology and changed it and is funding the research, so that needs to mentioned --Wool Bridge (talk) 10:15, 8 July 2013 (UTC)[reply]

Section copied to Talk:Cecil Alfred 'Coppy' Laws, discussion continues there. Vsmith (talk) 12:28, 8 July 2013 (UTC)[reply]

Alexander Chizhevsky

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I read this in wisegeek and have seen it elsewhere. Not sure where the academic references will be. http://www.wisegeek.com/what-is-ionized-air.htm
The idea behind using ionization to purify the air is generally credited to Alexander Chizhevsky, a 20th century Russian scientist who founded a field of study known as aero-ionization to research the effects of ionized air on living things. --Wool Bridge (talk) 15:33, 2 December 2014 (UTC)[reply]

Also in this article his name is spelt differently. This is a good reference for air ionisation. http://www.continuitycentral.com/HealthyBuildings.pdf --Wool Bridge (talk) 17:07, 8 January 2015 (UTC)[reply]

"air" molecules

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it is an unlucky choice of words to speak about air molecules as opposed to molecules of air (air is not a chemical name, since it is not a homogenous substance that could be descibed as a bunch of similar "air molecules", instead it is a mixture of different materials, each with their different molecules - or atoms in the case of argon and the other noble gas elements in the same column of the periodic table), just as there is no "beer atom" or "beer molecule". it would be more correct to speak about the (different) molecules that can be found in the mixture commonly called air. since i had no better idea how to reword it, i did not change the sentence, but added the hyperlink to the word "air" leading to the wiki article atmosphere where the reader can find out, what is the composition of air. 176.63.176.112 (talk) 00:18, 29 December 2016 (UTC).[reply]

Ionizers in hospitals

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Out of curiosity, and because of its relevance to coronavirus, I did a Google search for ionizers in hospitals. Found a 2015 article. First below is the citation they recommended. Followed by the reference generated by DOI Wikipedia reference generator.

  • Hagbom, Marie; Nordgren, Johan; Nybom, Rolf; Hedlund, Kjell-Olof; Wigzell, Hans; Svensson, Lennart (2015). "Ionizing air affects influenza virus infectivity and prevents airborne-transmission". Scientific Reports. 5 (1). doi:10.1038/srep11431. ISSN 2045-2322.

This interested me since I have allergies and sinus problems, and so I don't want ozone: "Moreover, this device does not produce detectable levels of ozone and can thus be safely used in all environments."

And of interest now with the COVID-19 pandemic: "Most importantly, we demonstrate that this technology can be used to prevent airborne-transmitted influenza virus infections."

This article is from 2015 and is more recent than any other reference currently used in the Wikipedia article. --Timeshifter (talk) 09:29, 2 April 2020 (UTC)[reply]

California Air Resources Board. Certified air cleaners meeting ozone limit

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California Air Resources Board has this page listing air cleaners meeting their ozone limit of 0.050 parts per million:

All portable indoor air cleaning devices sold in California must be certified by the California Air Resources Board (CARB). To be certified, air cleaners must be tested for electrical safety and ozone emissions, and meet an ozone emission concentration limit of 0.050 parts per million. For more information about the regulation, visit the air cleaner regulation.

--Timeshifter (talk) 13:31, 2 October 2020 (UTC)--[reply]

Older earthed versus modern isolated Ionisers

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Older style ionisers ran direct off the mains. A newer style ioniser, with an external power supply plug, or a low voltage power supply, is isolated, and may have a collection plate. The collection plate is positive and the emitter arrangement (needles) is negative, and neither side is earthed. These devices may have a slightly different naming style such as ionic air cleaner.

Older style ionisers often used a voltage multiplier system, built directly on the live side of the mains, connected to the ion emitter system. The return was connected to neutral (which is earthed by the mains wiring at the substation). This makes any earthed objects in the room the ion collectors - walls, floors, light fittings and so on. This I suppose caused the familiar shadowing effect on walls. In addition anyone standing in the room, earthed via his or her feet, was an ion collector, and experienced the negative ions in person. However this type of circuit seems to be no longer available in a newly purchased device. Finally the very oldest mechanical electrostatic ionisers were also earthed as well, via the body of the machine standing on the ground.

It seems to me that this apparently purely electrical difference is very material, for example to medical research.

By the way a newer device can be converted to work like an older one by earthing its collector plate. Conversely an older device can be converted to work like a newer device by running it off a 1:1 mains isolating transformer (as in an old style shaver socket for example). Also note that a USB powered ioniser is odd. If it is plugged into a laptop or mains USB power plug it will be isolated, but if it is plugged into a desktop PC or a car USB power socket it will be earthed!

I have no direct sources for this discussion. I had to take devices apart or make connectivity measurements to understand this, but it is a standard electrical analysis. — Preceding unsigned comment added by Lewisw1 (talkcontribs) 16:44, 12 January 2021 (UTC)[reply]