Anti Icky Poo®

A Pet Urine Odor Remover.

ANTI ICKY POO® is your best source for eliminating odor's created from Dog urine and waste, Puppy urine, Cat spray, urine and waste, Kitty urine, Horse urine and waste, Cow droppings, Human urine and waste, Vomit, Feces, Rodent urine and decay, Rat, Mice, Mouse and Hamster droppings, Bird droppings, Turtle droppings, Fish odor, Skunk spray to Diaper pails, Trash cans, Spoiled Milk, Rotten vegetables, Smoke, Char and many many more.
Can be used on carpet, wood, tile, ceramic and even concrete.
Recommended by top veterinarians, breeders, animal hospitals, rescue groups as the most effective pet urine odor remover on the market.
Eco friendly and made in the U.S.A.

Pet urine odor remover. There are hundreds of compounds that comprise hog odors — but only a few appear to be the “bad guys” responsible for most of the stink. Pet urine odor remover The multi-dimensional-gas-chromatography mass-spectrometry-olfactometry (MDGC-MS-O) instrument breaks down the gases and chemicals in livestock and poultry odors. ISU owns the only instrument of its kind in the country devoted to identifying animal-feeding odors. The instrument is normally used to capture the pleasant smells of cosmetics or the distinctive aromas given off by coffee, beer or tobacco products. “With this multi-dimensional capability, we can isolate and identify chemicals that are causing the greatest amount of odor, using separation and spectrometry technology. On the one hand, the instrument separates and identifies gases that are in the air, and on the other hand, we are coupling it with olfactometry analysis,” says Koziel, who works with ISU's Department of Agricultural and Biosystems Engineering, focusing on air quality and live stock odor research.Finding the Stinkers In Hog Barn Odors For olfactometry, three graduate students and Koziel take turns at stationing themselves at the instrument's sniffing port to try and label, in layman's terms, what a hog odor smells like. They then match it to a compound the instrument has identified. Samples are also sent to ISU agricultural engineer Steve Hoff's olfactometry lab, where trained odor-sniffing panels provide their perceptions. To obtain air samples, a novel air sampling technology known as solid-phase microextraction (SPME) is employed. “This technology allows researchers to sample very low concentrations of odorous gases,” observes Koziel. SPME is being used in the laboratory and in the field. ISU researchers use SPME to evaluate the effectiveness of odor control technologies, air sampling inside swine barns and downwind from hog operations. Odor samples collected on SPME are analyzed using the MDGC-MS-O system. The Bad Guys of Odor A second tier of the worst offenders includes gases that emit smells similar to wet feed, old socks or body odor, mothballs and old leather shoes. Dust Carries Odor, Too “What we have found out is that the smallest dust particles have the capacity to carry the most odor, because they are made up of ‘fine dust’ that contains mainly dried feces,” explains Koziel. Larger, “coarse dust” particles carry dried feces, but also transport dander or hog skin, feed, insects, etc. Hog odor compounds are “sticky” chemicals, facilitating transport by dust particles. The majority can travel short distances, but only the smallest, most odorous compounds Pet urine odor remover remain intact for long distances, he says. The ability of these compounds to also adhere readily to people and building materials is a chemical phenomenon of adsorption. When odor particles cling to people's skin and hair, one shower may not be enough to totally dislodge them. Koziel says odorous chemicals can become permanently adsorbed into a variety of equipment and building materials in a hog barn.Developing Solutions Since the instrument arrived at ISU last December, it has pinpointed a few “needles in the chemical haystack” of hog odors that Pet urine odor remover stand out as truly offensive to most people, says Koziel. At the top of the odor list are: para-cresol (smells like a barnyard); 4-ethyl phenol (smells like roadkill); and hydrogen sulfide (smells like rotten eggs).Because there are really only a few compounds that appear to be the cause of most hog odors, Koziel is confident that a multi-disciplinary approach will produce viable solutions. As it stands, biofilters have been very successful at changing the intensity of offensive odors. Koziel learned from fellow agricultural engineer Steve Hoff about the mobility of hog odors via dust. “If you can control dust emissions, you can go a long way toward controlling odors in animal-feeding operations,” he notes. Using diet, combined with environmental and engineering modifications, Koziel believes the problem of hog odors can be minimized. Besides his current work, he also plans to revisit testing of manure additives. Previous work only analyzed their impact on manure. He hopes to expand that research by using the new, sensitive instrument to analyze gas production, and then Pet urine odor remover sniff those gases to determine if odor control is improved with the use of the additives. The widest range of odors consists of organic compounds, although some inorganic substances, such as hydrogen sulfide and ammonia, are also odorants. The perception of an odor effect is a two-step process. First, there is the physiological part; the sense of the stimulus by receptors in the nose. After that, the psychological part follows. The stimuli are processed by the region of the human brain which is responsible for smelling. Because of this, an objective and analytical measure of odor is impossible. While odor feelings are very personal perceptions, individual reactions are related to gender, age, state of health, and private affectations. Common odors that people are used to, such as their own body odor, are less noticeable to individuals than external or uncommon odors. For most people, the process of smelling gives little information concerning the ingredients of a substance. It only offers information related to the emotional impact. Experienced people, however, such as and perfumers, Pet urine odor remover can pick out individual chemicals in complex mixes through smell alone. In Germany, the concentrations of odorants have since the 1870’s been defined by the “Olfaktometrie”, which helps to analyze the human sense of smell using the following parameters: odor substance concentration, intensity of odor, and hedonic assessment. To establish the odor concentration, an olfactometer is used which employs a panel of human noses as sensors. In the olfactometry testing procedure, a diluted odorous mixture and an odor-free gas (as a reference) are presented separately from sniffing ports to a group of panelists, which are housed in an odor neutral room. They are asked to compare the gases emitted from each sniffing port, after which the panelists are asked to report the presence of odor together with a confidence level such as guessing, inkling, or certainty of their assessment. The gas-diluting ratio is then decreased by a factor of two (i.e. chemical concentration is increased by a factor of two). The panelists are asked to repeat their judgment. This continues for a number of dilution levels. The responses of the panelists over a range of dilution settings are used to calculate the concentration of the odor in terms of European Odor Units (ouE/m³). Pet urine odor remover Odor concentration The main panel calibration gas used is Butan-1-ol., which at a certain diluting gives 1 ouE/m³. The analytic methods could be subdivided into the physical, the gas chromatographical, and the chemosensory method. When measuring odor, there is a difference between the emission and immission measurements. During the emission measurement, the odor concentration in the air is so high that the so called “Olfaktometer” is needed to thin the assay. Because of this, all measurement methods based on thinning assays are called “olfaktometrical methods.” On the contrary, an “Olfaktormeter” is rarely used during the immission measurement. The same measuring principals are used, Pet urine odor remover but the judgment of the air assay happens without thinning the assay.The measurement of odor concentration is the most widespread method to quantify odors. To establish the odor concentration, an olfactometer is used which employs a panel of test persons. A diluted odorous mixture and an odor-free gas (as a reference) are presented from sniffing ports to a group of panelists. In comparing the gases emitted from each port, the panelists are asked to report the presence of odor. The gas-diluting ratio is then decreased by a factor of 1.4 or two (i.e. the concentration is increased accordingly). The panelists are asked to repeat their judgment. This continues for a number of dilution levels. The responses of the panelists over a range of dilution settings are used to calculate the concentration of the odor in terms of European Odor Units (OUE/m3). The test persons must fulfill certain requirements, for example regarding their sensitivity of odor perception. The main panel calibration gas to verify this requirement used Odor intensity. Odor intensity can be divided into the following categories according to intensity: no odor This method is most often applied by having a dilution series tested by a panel of independent observers who have Pet urine odor remover been trained to differentiate intensity. Hedonic assessment is the process of scaling odors on a scale ranging from extremely unpleasant via neutral up to extremely pleasant. There is no correlation between this method and the method of measuring the odor intensity. However, the hedonic perception of some odors may change from pleasant to unpleasant with increasing concentration and intensity. Odor type - The following details have to be differentiated while the Pet urine odor remover emission is measured: First there is the odor time slice (Result = Part of “odor hours per year” per area). Then there is the olfactory flag scope (Result = Current scope at actual meteorology situation). And last but not least there is the harassment exaltation by questionings (Result = differentiated acquisition harassments). This is a verbal characterization of the sensed odor by the test person, such as disgusting, caustic, ruffling, etc. There are no more applications needed than a test person to run this method. The evaluation of the odor type could be an emission or an immission method. It has a great impact on evaluating the source of the odor emission.Sampling technique There are two main odor sampling techniques, the direct odor sampling and the indirect odor sampling technique.Direct odor sampling Air will be sampled at the source and fed straight into the olfactometer for assessment by an odor panel. The following problems can be associated with this technique: Odor panel members need to be seated in an odor neutral environment, thus they need to be housed in a separate area. Pet urine odor remover This is difficult to achieve when assessing odor released from, for example factories, where the odor can be emitted from a stack on the end of a production line. This means that the odor sample collected needs to be transported from the stack to the unit where the odor panel sits. This can sometimes be on the other side of the factory plant. The sample then must therefore pass through a very long sample line to the olfactometer. This can have influences on the sample quality, can have potential air blockages due to water condensation or other operational procedures. Therefore most odor annoyance assessment companies use the indirect air sampling method.Indirect odor sampling is done with the use of odor (air) sampling bags, which are made from an odor neutral material e.g. Teflon. Vacuum can be overcome by placing the odor sample bag in vacuum container which can be placed under vacuum. If the Pet urine odor remover vacuum is higher then the vacuum at the source, the odor sample will collect in the bag. High temperatures and moisture content The odor sample bags are connected to an air sampling line which is then, for example, hooked up to a stack. The air stream is then sampled and stored in the odor sample bag and can then be analyzed in a suitable environment (e.g. in an odor laboratory). The indirect method is used to sample a wide variety of odor sources. From stacks on the end of a factory line, water surfaces or ambient air surroundings. Each odor source has its own set of problems when sampled; these problems need to be overcome in order to collect a representative sample of the odor source. The following problems can be encountered: Vacuum High temperatures and high moisture contents inside the odor source leads to complications when sampled. When the sample leaves the source, it will cool down and produce condensate in the sample line and or odor sample bag. Indirect odor sampling This can lead to growth of bacteria or when drying out release more odor, thus alter the odor concentration of the sample. The same hold up when sampling in high moisture conditions. A way round the problem is to use a stack dilution probe trough which an inert gas (for example dry nitrogen) can be fed that dries the sample stream. This prevents the moisture condensing in the sample line and or the odor sample bag. High lethal gas concentrations Sometimes odor sources emits a high concentration of gasses that are lethal to man. These samples must be diluted to a safe level, before being presented to the odor panel. This pre-dilution can be done in a stack-dilution probe, by the addition of an inert gas or on a dilution device for example an extra olfactometer. Odor concentrations More often than not, odor sampled at the source is higher then the ambient odor concentration. In a few cases the odor concentration can be so high that panelists will make a positive identification even if the olfactometer is diluting the odor sample in its upper dilution range. In one end of the hood, clean air is blown in at a known rate, and on the other end, a sample is collected via the indirect method. If a large land surface is emitting odor, for example a bio filter (a big concrete basin filled with wood chip trough which the factories waste air is pumped), a section can be cornered off with plastic (e.g. Teflon) (of which the dimensions are known). The air from the factory will inflate the plastic (lift it up) and an odor sample can be taken from under the plastic via the direct air method. When a large surface is emitting odor, for example a sewage treatment plant, a fixed dimension “hood” can be used. Controls at the point of the emission, like plural vitrification against aircraft noise, drop out. Terms of transmission could be marginally changed by establishing ramparts, plantings and so on, but the objective efficiency of those controls is likely minimal. But the subjective efficiency of a plantings is remarkable. The choice of the location is the most important control, that means keeping an adequate distance to the nearest receptor and paying attention to the conditions, such as the prevailing wind direction. Reduction of the emission, by way of dilution of a small emission concentration with large air flow volumes, could be an effective and economic alternative, instead of reducing the emission with different controls. Encapsulating of olfactory relevant asset areas is the best known method to reduce the emission, but it is not the most suitable one. Different matters need to be considered by encapsulation. Within an enclosure a damp and oppressive atmosphere can arise, so that the inner materials of the capsule produce a high degree of mechanical stress. Not to let the explosion hazard slide.All involved sampling parts have to be made out of olfactory neutral materials. Principally every sampling has to meet the logically requirements, has to be defined, standardized, meaningful and reproducible. This is needed to make different measurements comparable. Odorant concentrations scaled in either GG/m³ or ouE/m³ aren’t convincing while comparing different emissions of different plants. Because of this instead of comparing different concentrations, different emission mass currents of the emitted freight are compared. When legislation for environmental protection in Germany first began, it raised the question of the evaluation of different odors. Since that time, the following laws have been made:The sample must then be pre-diluted to make a sensible reading, this pre-dilution can again be done with a stack-dilution probe, by the addition of an inert gas or on a dilution device for example an extra olfactometer. Large odor emitting surface (land or water) For encapsulation to be viable, there must be some way to exhaust the spent air. When emission is avoided through capsuling, odorants remain inside the medium and tend to leak at the next suitable spot. In any case, capsuling is never really gas-proof, and at some spots substances may leak out at considerably higher concentrations. There are three different ways exhausted air may be treated: chemical treatment physical treatment biological treatment These forces are characterized by electrostatic interactions between induced, fluctuating dipoles. To be more specific you have to call those forces “London's Dispersal forces.” A so called dipole moment occurs because of fluctuations in the distribution of electrons around individual atoms. The temporary mean value of this force is however zero. Even though it’s only a mere transient dipole moment, this moment can cause a nonparallel dipole moment in an adjacent molecule. Operating forces of this nature are in inverse proportion to the sixth power of the distance between those molecules. These forces occur in almost every chemical system, but are relatively weak. Physisorption is an exothermic and reversible reaction. Adsorption is a thermo separation process, which is characterized by the removal of molecules out of a fluid phase at a solid surface. Molecules of a gas- or fluid mixture are taken up by a solid with a porous interface surface. The solid matter is called the adsorbant, the adsorbed fluid is called the adsorbate. There are two types of adsorption, The type of force driving the adsorption process is different between the two. A special type of adsorption is physisorption. The difference between physisorption and chemisorption is that the adsorbed molecule is tied up with the substrate by physical forces, defined here as forces which do not cause chemical bonds. Such interactions are mostly unfocused in contrast to chemical bonds. “Pet urine odor remover ” – forces are a special type of such physical forces. Obviously stronger strengths accrue through the interaction between solid dipoles at polar surfaces or reflexive loadings, appearing in electric conductive surfaces. Such interactions could be defined as a chemisorption because of their strength. In many reactions, physisorption is a pre-cursor to chemisorption. Compared to physisorption, chemisorption is not reversible and requires a larger activation Usually the bond energy is about 800 kJ/mol. For physisorption the bond energy is only about 80 kJ/mol. A monomolecular layer could be maximally adsorbed. Strong bonds between the adsorbative molecules and the substrate could lead to the point that their intermolecular bonds partly or completely detach. In such a case you have to call this a dissociation. Those molecules are in a highly reactive state. This is the basis of heterogeneous catalysis. For higher loading this value approaches zero. This implies that there is a limit for the loading of an adsorbant. The procedure of turning back that process is called desorption. Adsorption as a separating process is a challenging process, in the case of finding the eligible adsorbents, which could link as multilateral as possible.The substrate is then called catalytic converter. Pet urine odor remover Types of odors The differences between Chemisorption and Physisorption extends beyond an increased activation energy. An important criteria for chemisorption is the chemical mutation of the absorbent. Thereby it is possible that you have to deal with a chemisorption in a few combinations with a relatively low bond energy, for example 80 kJ/mol, as a physisorption could be another combination with a bond energy even by 100 kJ/mol. The interaction with different adsorbative molecules is very different. The surface could be taken by substances, which point out a very high bond energy with the substrate, and as a consequence of this the wanted reaction is impossible. Because of that feature those substances are called catalytic converter venom. Heat is released during that process too. During the adsorption of a molecule, energy - the heat of adsorption – is released. This energy is the difference of the enthalpy of the adsorben in the fluid or gaseous phase and the its corresponding enthalpy on the surface of the adsorbant. With an increase of the loading on the surface of the adsorbant the bond energy decreases in the area of the monomolecular covering. Some odors such as perfumes and flowers are sought after, elite varieties commanding high prices. Whole industries have developed products to remove unpleasant odors (see deodorant). The perception of odors is also very much dependent upon circumstance and culture. The odor of cooking processes may be pleasurable while cooking but not necessarily after the meal.The study of odors is a growing field but is a complex and difficult one. The human olfactory system can detect many thousands of scents based on only very minute airborne concentrations of a chemical. The sense of smell of many animals is even better. Some fragrant flowers give off odor plumes that move downwind and are detectable by bees more than a kilometer away. The study of odors can also get complicated because of the complex chemistry taking place at the moment of a smell sensation. For example iron metal objects are perceived to have an odor when touched although iron vapor pressure is negligible. According to a 2006 study this smell is the result of and (example: 1-octen-3-one) released from the human skin on contact with ferrous ions that are formed in the sweat-mediated corrosion of iron. The same chemicals are also associated with the smell of blood as ferrous iron in blood on skin produces the same reaction. Pheromones are odors that are used for communication. A female moth may release a pheromone that can entice a male moth that is several kilometers away. Honeybee queens constantly release pheromones that regulate the activity of the hive. Workers can release such smells to call other Pet urine odor remover bees into an appropriate cavity when a swarm moves in or to "sound" an alarm when the hive is threatened. In mammals some pathway of Pheromones identification lay in and some - in odor receptors. The odor molecules send messages to the limbic system, the area of the brain that governs emotional responses. Some believe that these messages have the power to alter moods, evoke distant memories, raise their spirits, and boost self-confidence. This belief has led to the concept of “aromatherapy” wherein fragrances are claimed to cure a wide range of psychological and physical problems. Aromatherapy claims fragrances can positively affect sleep, stress, alertness, social interaction, and general feelings of well-being. However, the evidence for the effectiveness of aromatherapy consists mostly of anecdotes and lacks controlled scientific studies to back up its claims. With some fragrances, such as those found in perfume, scented shampoo, scented deodorant, or similar products, people can be allergic to the ingredients. The reaction, as with other chemical allergies, can be anywhere from a slight headache to anaphylactic shock, which can result in death. Unpleasant odors can arise from specific industrial processes, adversely affecting workers and even residents downwind of the industry. The most common sources of industrial odor arise from sewage treatment plants, refineries, specific animal rendering plants and industries processing chemicals (such as sulfur) which have odorous characteristics. Sometimes industrial odor sources are the subject of community controversy and scientific analysis.