Mold in your home or place of business can cause health problems and lower the value of your property. The certified mold remediation professionals at NoMoldAtlanta will take the fear out of mold with a two-step professional mold removal and prevention process that is non-toxic, cost-effective, and creates as little disruption as possible in your day-to-day life. The father-son team of Dan and J.D. Ortega have spent the last 20 years earning the respect and trust of homeowners and the top realtors and brokers in the Metro Atlanta area. You can count on our family owned business to handle your commercial or home mold removal problem as quickly, safely, and affordably as possible.

We begin our certified mold removal process by sealing off the work space with containment barriers. We then set up air scrubbers to create negative pressure that will limit particulate counts during remediation. We remove all unsalvageable, visibly mold-impacted material from the work space, and we clean all salvageable materials by hand wiping with Anabec Cleaning Solutions and/or HEPA vacuum-assisted orbital sanding and wire brushing as necessary. After a thorough HEPA vacuuming to remove any particulates or dust that might contain mold, we treat all surfaces in the work space with Anabec Cleaning Solutions to agitate and remove potential mold spores from treated surfaces. Finally, we treat all work space surfaces with Anasphere or X-70 Plus to provide a barrier against future mold growth on treated surfaces. Many of our mold cleanup projects can be completed in 24-48 hours, and we do our own repair work, which eliminates the complication and cost of multiple contractors.

If youre a builder or developer, the NoMoldAtlanta mold prevention service is the most effective way to guard your new building against the development and spread of mold colonies. We seal off all potential food sources for mold colonies in the buildings foundation, framework, interior drywall, and finished interior surfaces like cabinets and floors. Our work on new construction and existing buildings is backed by a ten-year limited warranty. Our safe, time-efficient commercial mold remediation process also is ideal for schools, hospitals, public facilities, bank-owned foreclosed properties, or any other business confronted with a mold emergency.

If you suspect you have a mold or mildew problem in your home or place of business, dont ignore it. The potential health risk is real, but there is a safe, time-efficient, affordable solution. Contact NoMoldAtlanta today for information on mold inspections and mold detection, or to set up an appointment with a mold expert for a free evaluation. You can trust NoMoldAtlanta to produce an immediate, long-term solution to your mold problem in Atlanta, Alpharetta, Roswell, Marietta, Smyrna, Canton and beyond.

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Mold Removal | Mold Remediation | Atlanta, Alpharetta ...

There may be mold growing in your home, in your child's school, your office virtually anywhere and you may not even realize it. This hidden mold has the potential to cause serious health issues to you and your family, and structural damage to homes and buildings.

Like all fungi, mold feeds on the organic materials that can be found on non-synthetic surface areas that contain moisture. Mold Solutions exclusive EPA-registered, water-soluble solutions form a protective surface shield against these single-celled microbes, and stops airborne mold from growing on all treated surfaces. Best of all, this non-toxic antimicrobial protection is so effective, we offer a 10-year warranty on ALL mold remediation treatments.

For older homes, hospitals, offices or day care centers, our experienced team of IICRC-certified inspectors can find pockets of hidden mold that may be causing serious harm. Dont wait any longer protect your family, your employees, your children, and all who visit your establishment from the dangerous effects of mold.

The experts at Mold Solutions Chicago understand just how dangerous mold can be and are proud to have been invited to participate in several episodes of Extreme Makeover Home Edition to contribute our mold prevention services for the new homes of the deserving families in Philo, IL., Lena, IL. and Owensboro, KY.

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Mold Solutions | Inspection | Remediation | Prevention | Chicago

Eliminate and control mold, mildew and odor after floods, fires and more.

After flooding, fire, disaster, catastrophic HVAC failure and other situations where moisture is released can cause a large buildup on mold, mildew and more, quickly. Its important to understand the need to control mold and mildew growth quickly and effectively, specially in commercial buildings or Schools. Theres a tried and true three step process to controlling mold growth.

1. Find the source of moisture and stop it. 2. Kill the mold and mildew and other contaminants 3. Control to future growth by using the right mold control products.

BBJ products like our Mold and Mildew Cleaner and Mold Control for Floors and Walls or Mold Control for HVAC Systems and Air Ducts helps first kill and the control the future growth of mold keeping air and living quality safe. Additionally, mold and mildew can leave nasty stains. BBJ Peroxi-Cleanse is perfect for cleaning mold and mildew stains safely.

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Commercial Mold - EPA Mold & Mildew Remediation Products

A mold (US / CA) or mould (UK / NZ / AU / ZA / IN / CA) is a fungus that grows in the form of multicellular filaments called hyphae.[1][2] In contrast, fungi that can adopt a single-celled growth habit are called yeasts.

Molds are a large and taxonomically diverse number of fungal species where the growth of hyphae results in discoloration and a fuzzy appearance, especially on food.[3] The network of these tubular branching hyphae, called a mycelium, is considered a single organism. The hyphae are generally transparent, so the mycelium appears like very fine, fluffy white threads over the surface. Cross-walls (septa) may delimit connected compartments along the hyphae, each containing one or multiple, genetically identical nuclei. The dusty texture of many molds is caused by profuse production of asexual spores (conidia) formed by differentiation at the ends of hyphae. The mode of formation and shape of these spores is traditionally used to classify molds.[4] Many of these spores are colored, making the fungus much more obvious to the human eye at this stage in its life-cycle.

Molds are considered to be microbes and do not form a specific taxonomic or phylogenetic grouping, but can be found in the divisions Zygomycota and Ascomycota. In the past, most molds were classified within the Deuteromycota.[5]

Molds cause biodegradation of natural materials, which can be unwanted when it becomes food spoilage or damage to property. They also play important roles in biotechnology and food science in the production of various foods, beverages, antibiotics, pharmaceuticals and enzymes. Some diseases of animals and humans can be caused by certain molds: disease may result from allergic sensitivity to mold spores, from growth of pathogenic molds within the body, or from the effects of ingested or inhaled toxic compounds (mycotoxins) produced by molds.[1]

There are thousands of known species of molds, which have diverse life-styles including saprotrophs, mesophiles, psychrophiles and thermophiles and a very few opportunistic pathogens of humans.[6] They all require moisture for growth and some live in aquatic environments. Like all fungi, molds derive energy not through photosynthesis but from the organic matter on which they live, utilising heterotrophy. Typically, molds secrete hydrolytic enzymes, mainly from the hyphal tips. These enzymes degrade complex biopolymers such as starch, cellulose and lignin into simpler substances which can be absorbed by the hyphae. In this way molds play a major role in causing decomposition of organic material, enabling the recycling of nutrients throughout ecosystems. Many molds also synthesise mycotoxins and siderophores which, together with lytic enzymes, inhibit the growth of competing microorganisms. Molds can also grow on stored food for animals and humans, making the food unpalatable or toxic and are thus a major source of food losses and illness.[7] Many strategies for food preservation (salting, pickling, jams, bottling, freezing, drying) are to prevent or slow mold growth as well as growth of other microbes.

Molds reproduce by producing large numbers of small spores,[6] which may contain a single nucleus or be multinucleate. Mold spores can be asexual (the products of mitosis) or sexual (the products of meiosis); many species can produce both types. Some molds produce small, hydrophobic spores that are adapted for wind dispersal and may remain airborne for long periods; in some the cell walls are darkly pigmented, providing resistance to damage by ultraviolet radiation. Other mold spores have slimy sheaths and are more suited to water dispersal. Mold spores are often spherical or ovoid single cells, but can be multicellular and variously shaped. Spores may cling to clothing or fur; some are able to survive extremes of temperature and pressure.

Although molds can grow on dead organic matter everywhere in nature, their presence is visible to the unaided eye only when they form large colonies. A mold colony does not consist of discrete organisms but is an interconnected network of hyphae called a mycelium. All growth occurs at hyphal tips, with cytoplasm and organelles flowing forwards as the hyphae advance over or through new food sources. Nutrients are absorbed at the hyphal tip. In artificial environments such as buildings, humidity and temperature are often stable enough to foster the growth of mold colonies, commonly seen as a downy or furry coating growing on food or other surfaces.

Few molds can begin growing at temperatures of 4C (39F) or below, so food is typically refrigerated at this temperature. When conditions do not enable growth to take place, molds may remain alive in a dormant state depending on the species, within a large range of temperatures. The many different mold species vary enormously in their tolerance to temperature and humidity extremes. Certain molds can survive harsh conditions such as the snow-covered soils of Antarctica, refrigeration, highly acidic solvents, anti-bacterial soap and even petroleum products such as jet fuel.[8]:22

Xerophilic molds are able to grow in relatively dry, salty, or sugary environments, where water activity (aw) is less than 0.85; other molds need more moisture.[9]

Common genera of molds include:

The Kji (?) molds are a group of Aspergillus species, notably Aspergillus oryzae, and secondarily A. sojae, that have been cultured in eastern Asia for many centuries. They are used to ferment a soybean and wheat mixture to make soybean paste and soy sauce. Koji molds break down the starch in rice, barley, sweet potatoes, etc., a process called saccharification, in the production of sake, shch and other distilled spirits. Koji molds are also used in the preparation of Katsuobushi.

Red rice yeast is a product of the mice Monascus purpureus grown on rice, and is common in Asian diets. The yeast contains several compounds collectively known as monacolins, which are known to inhibit cholesterol synthesis.[10] A study has shown that red rice yeast used as a dietary supplement, combined with fish oil and healthy lifestyle changes, may help reduce "bad" cholesterol as effectively as certain commercial statin drugs.[11]

Some sausages, such as salami, incorporate starter cultures of molds [12] to improve flavour and reduce bacterial spoilage during curing. Penicillium nalgiovense, for example, may appear as a powdery white coating on some varieties of dry-cured sausage.

Other molds that have been used in food production include:

Alexander Fleming's accidental discovery of the antibiotic penicillin involved a Penicillium mold called Penicillium notatum (although the species identity is disputed as possibly being Penicillium chrysogenum or Penicillium rubens).[13] Fleming continued to investigate Penicillin, showing that it could inhibit various types of bacteria found in infections and other ailments, but he was unable to produce the compound in large enough amounts necessary for production of a medicine.[14] His work was expanded by a team at Oxford University; Clutterbuck, Lovell, and Raistrick, who began to work on the problem in 1931. This team was also unable to produce the pure compound in any large amount, and found that the purification process diminished its effectiveness and negated the anti-bacterial properties it had.[14]

Howard Florey, Ernst Chain, Norman Heatley, Edward Abraham, also all at Oxford, continued the work.[14] They enhanced and developed the concentration technique by using organic solutions rather than water, and created the "Oxford Unit" to measure penicillin concentration within a solution. They managed to purify the solution, increasing its concentration by 45-50 times, but found that a higher concentration was possible. Experiments were conducted and the results published in 1941, though the quantities of Penicillin produced were not always high enough for the treatments required.[14] As this was during the Second World War, Florey sought USA Government involvement. With research teams in the UK and some in the US, industrial-scale production of crystallized penicillin was developed during 1941-1944 by the USDA and by Pfizer.[13][15]

Several statin cholesterol-lowering drugs (such as lovastatin, from Aspergillus terreus) are derived from molds.[16]

The immunosuppressant drug cyclosporine, used to suppress the rejection of transplanted organs, is derived from the mold Tolypocladium inflatum.

Molds are ubiquitous, and mold spores are a common component of household and workplace dust; however, when mold spores are present in large quantities, they can present a health hazard to humans, potentially causing allergic reactions and respiratory problems.

Some molds also produce mycotoxins that can pose serious health risks to humans and animals. Some studies claim that exposure to high levels of mycotoxins can lead to neurological problems and in some cases, death.[17] Prolonged exposure, e.g. daily home exposure, may be particularly harmful. Research on the health impacts of mold has not been conclusive.[18] The term "toxic mold" refers to molds that produce mycotoxins, such as Stachybotrys chartarum, and not to all molds in general.[19]

Mold in the home can usually be found in damp, dark or steamy areas e.g. bathroom or kitchen, cluttered storage areas, recently flooded areas, basement areas, plumbing spaces, areas with poor ventilation and outdoors in humid environments. Symptoms caused by mold allergy are watery, itchy eyes, a chronic cough, headaches or migraines, difficulty breathing, rashes, tiredness, sinus problems, nasal blockage and frequent sneezing.

Molds can also pose a hazard to human and animal health when they are consumed following the growth of certain mold species in stored food. Some species produce toxic secondary metabolites, collectively termed mycotoxins including aflatoxins, ochratoxins, fumonisins, trichothecenes, citrinin, and patulin. These toxic properties may be used for the benefit of humans when the toxicity is directed against other organisms; for example, penicillin adversely affects the growth of Gram-positive bacteria (e.g. Clostridium species), certain spirochetes and certain fungi.[20]

Mold growth in buildings can lead to a variety of health problems. Various practices can be followed to mitigate mold issues in buildings, the most important of which is to reduce moisture levels that can facilitate mold growth.[19] Removal of affected materials after the source of moisture has been reduced and/or eliminated may be necessary for remediation.

Various artists have used mold in various artistic fashions. Daniele Del Nero, for example, constructs scale models of houses and office buildings and then induces mold to grow on them, giving them a spooky, reclaimed-by-nature look. Staci Levy sandblasts enlarged images of mold onto glass, then allows mold to grow in the crevasses she has made, creating a macro-micro portrait.[21]

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Helpful ReviewsMold Inspection & Testing Houston TXChristopher W.rated

Consider me another happy customer of MI&T. After smelling mold in our "new" house, the inspector swept in to take care of the issue. They cleaned mold off the walls and found the source of the mold in the kitchen. MI&T made great suggestions for mold remediation of the source of the mold, and quickly took care of the ensuing issues. He was on time, and kept us up to date on the process. He was also very responsive via phone and email, which was great.

What a great company that has a lot of experience. I called MI&T for an inspection on my condo that I was renting out of state and when I mentioned that I needed someone that day because I had to go back home they came within two hours. The inspector had a lot of knowledge and definitely gave me a lot of information on what to do. I would definitely recommend them to everyone.

The report had photos and description of each item with its condition. I couldn't believe how detailed it was. I particularly like the breakdown of "MINOR and MAJOR" issues. It helps put things into perspective.

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Sickness Including Hospitalization Costly Repair Bills Cause Your Home To Be Condemned

It is impossible to get rid of mold as mold spores will be floating in the air and in house dust. The mold spores will continue to grow if there is moisture present. Therefore, it is important to find and clean up the mold and fix the water/moisture problem that is the source of the mold. If the mold is cleaned up, but the water/moisture source is not fixed, the mold WILL come back. Dead mold may still cause allergic reactions in some people, so it is not enough to simply remove the mold that you can see.

Professional mold removal by Earth Safe Environmental techs can help make your property or home mold free. If you have mold, get help to keep your home and family healthy. Mold can damage property, reduce the value of your antiques and cause health issues for your family. Children and the elderly are very susceptible to mold related breathing problems. The allergy prone can also experience significant breathing problems.

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Mold Remediation Albany NY | Mold Removal Albany | Mold ...

Stop mold from harming your home and your health. Michael & Son provides systematic andprompt mold remediation for residents in Washington DC, Maryland, and Virginia. You cant afford to allow mold to grow and release spores throughout your home. It not only causes damage, but it can make you and your family sick.

As a reputable and fully licensed mold removal company, we offer effective solutions that rid your place of this harmful growth. Our certified team has passed rigorous test and adhere strictly to IICRC S520 remediation guidelines. Allow our mold remediation experts to properly evaluation your homes microbial contamination problem. We provide mold removal for customers in and around the following areas:

Arlington VA Alexandria VA Silver Spring MD Bethesda MD Rockville MD

The Steps for Mold Remediation in DC, MD, and VA Molds can grow anywhere that moisture is present. If your home has water damage or an area of your home is damp, the chances are you probably have mold. When you need mold remediation, dont try to do it yourself. Theres more to mold than meets the eye.

While not all mold types are dangerous, there are a few types that are toxic even deadly. For mold cleanup, depend on the mold experts at Michael & Son for assessment, removal, and repair. Our mold remediation process involves

Black Mold Removal in Virginia & Maryland Black mold is not only dangerous, it can be deadly as well. In fact, it is vital that you consult ablack mold removal expert if you suspect that it is in your home. Do not disturb the mold, because it has harmful mycotoxins that are easily released if you touch the area. Our certified specialists use advanced equipment and mold cleanup that ensure your home environment is safe again.

Contact the mold experts at our company for fast mold remediation services when you notice black spots spreading on your wall. We proudly serve customers in the following areas: Washington DC; Virginia: Alexandria, Arlington, Fairfax, Reston, Herndon, Ashburn, and Chantilly; Maryland: Rockville, Silver Spring, Bethesda, Gaithersburg, and Prince Georges.

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Concern about indoor exposure to mold has been increasing as the public becomes aware that exposure to mold can cause a variety of health effects and symptoms, including allergic reactions. This document presents guidelines for the remediation/cleanup of mold and moisture problems in facilities at NC State University including measures designed to protect the health of building occupants and remediators.

Mold can be found almost anywhere; it can grow on virtually any organic substance, as long as moisture and oxygen are present. There is mold that can grow on wood, paper, carpet, foods, and insulation. When excessive moisture accumulates in buildings or on building materials, mold growth will often occur, particularly if the moisture problem remains undiscovered or unaddressed. It is impossible to eliminate all mold and mold spores in the indoor environment. However, mold growth can be controlled indoors by controlling moisture indoors.

Since mold requires water to grow, it is important to prevent moisture problems in buildings. Moisture problems can have many causes, including uncontrolled humidity. Some moisture problems in buildings have been linked to changes in building construction practices during the 1970s, 80s, and 90s. Some of these changes have resulted in buildings that are tightly sealed, but may lack adequate ventilation, potentially leading to moisture buildup. Building materials, such as drywall, may not allow moisture to escape easily. Moisture problems may include roof leaks, landscaping or gutters that direct water into or under the building, and unvented combustion appliances. Delayed maintenance or insufficient maintenance are also associated with moisture problems in schools and large buildings. Moisture problems in portable classrooms and other temporary structures have frequently been associated with mold problems.

In some cases, indoor mold growth may not be obvious. It is possible that mold may be growing on hidden surfaces, such as the backside of dry wall, wallpaper, or paneling, the top of ceiling tiles, the underside of carpets and pads, etc. Possible locations of hidden mold can include pipe chases and utility tunnels (with leaking or condensing pipes), walls behind furniture (where condensation forms), condensate drain pans inside air handling units, porous thermal or acoustic liners inside ductwork, or roof materials above ceiling tiles (due to roof leaks or insufficient insulation).

Some building materials, such as dry wall with vinyl wallpaper over it or wood paneling, may act as vapor barriers, trapping moisture underneath their surfaces and thereby providing a moist environment where mold can grow. You may suspect hidden mold if a building smells moldy, but you cannot see the source, or if you know there has been water damage and building occupants are reporting health problems. Investigating hidden mold problems may be difficult and will require caution when the investigation involves disturbing potential sites of mold growthmake sure to use PPE.

For example, removal of wallpaper can lead to a massive release of spores from mold growing on the underside of the paper. If you discover hidden mold, you should revise your remediation plan to account for the total area affected by mold growth.

Assess the size of the mold or moisture problem and the type of damaged materials before planning the remediation work.

The decision to relocate occupants should consider the size and type of the area affected by mold growth, the type and extent of health effects reported by the occupants, the potential health risks that could be associated with debris, and the amount of disruption likely to be caused by remediation activities. If possible, remediation activities should be scheduled during off-hours when building occupants are less likely to be affected.

The Key to Mold Control

If you are unsure what to do, or if the item is expensive or of sentimental value, you may wish to consult a specialist. Specialists in furniture repair/restoration, painting, art restoration and conservation, carpet and rug cleaning, water damage, and fire/water restoration are commonly listed in phone books. Be sure to ask for and check references; look for affiliation with professional organizations. Molds Can Damage Building Materials and Furnishings

A variety of mold cleanup methods are available for remediating damage to building materials and furnishings caused by moisture control problems and mold growth. The specific method or group of methods used will depend on the type of material affected. Please note that professional remediators may use some methods not covered in these guidelines;absence of a method in the guidelines does not necessarily mean that it is not useful.

Method 1: Wet Vacuum

Wet vacuums are vacuum cleaners designed to collect water. They can be used to remove water from floors, carpets, and hard surfaces where water has accumulated. They should not be used to vacuum porous materials, such as gypsum board. They should be used only when materials are still wetwet vacuums may spread spores if sufficient liquid is not present. The tanks, hoses, and attachments of these vacuums should be thoroughly cleaned and dried after use since mold and mold spores may stick to the surfaces.

Method 2: Damp Wipe

Whether dead or alive, mold is allergenic, and some molds may be toxic. Mold can generally be removed from nonporous (hard) surfaces by wiping or scrubbing with water, or water and detergent. It is important to dry these surfaces quickly and thoroughly to discourage further mold growth. Instructions for cleaning surfaces, as listed on product labels, should always be read and followed. Porous materials that are wet and have mold growing on them may have to be discarded. Since molds will infiltrate porous substances and grow on or fill in empty spaces or crevices, the mold can be difficult or impossible to remove completely.

Method 3: HEPA Vacuum

HEPA (High-Efficiency Particulate Air) vacuums are recommended for final cleanup of remediation areas after materials have been thoroughly dried and contaminated materials removed. HEPA vacuums are also recommended for cleanup of dust that may have settled on surfaces outside the remediation area. Care must be taken to assure that the filter is properly seated in the vacuum so that all the air must pass through the filter. When changing the vacuum filter, remediators should wear PPE to prevent exposure to the mold that has been captured. The filter and contents of the HEPA vacuum must be disposed of in well-sealed plastic bags.

Method 4: Discard

Remove Damaged Materials and Seal in Plastic Bags

Building materials and furnishings that are contaminated with mold growth and are not salvageable should be double-bagged using 6-mil polyethylene sheeting. These materials can then usually be discarded as ordinary construction waste. It is important to package mold contaminated materials in sealed bags before removal from the containment area to minimize the dispersion of mold spores throughout the building. Large items that have heavy mold growth should be covered with polyethylene sheeting and sealed with duct tape before they are removed from the containment area.

Always use gloves and eye protection when cleaning up mold!

If the remediation job disturbs mold and mold spores become airborne, then the risk of respiratory exposure goes up. Actions that are likely to stir up mold include: breakup of moldy porous materials such as wallboard; invasive procedures used to examine or remediate mold growth in a wall cavity; actively stripping or peeling wallpaper to remove it; and using fans to dry items.

The primary function of Personal Protective Equipment (PPE) is to avoid inhaling mold and mold spores and to avoid mold contact with the skin or eyes.

Skin and Eye Protection

Gloves are required to protect the skin from contact with mold allergens (and in some cases mold toxins) and from potentially irritating cleaning solutions. Long gloves that extend to the middle of the forearm are recommended. The glove material should be selected based on the type of materials being handled. If you are using a biocide (such as chlorine bleach) or a strong cleaning solution, you should select gloves made from natural rubber, neoprene, nitrile, polyurethane,or PVC. If you are using a mild detergent or plain water, ordinary household rubber gloves may be used. To protect your eyes, use properly fitted goggles or a full-face respirator with HEPA filter. Goggles must be designed to prevent the entry of dust and small particles. Safety glasses or goggles with open vent holes are not acceptable.

Respiratory Protection

Respirators protect cleanup workers from inhaling airborne mold, mold spores, and dust.

Minimum : When cleaning up a small area affected by mold, you should use an N-95 respirator. This device covers the nose and mouth, will filter out 95% of the particulates in the air, and is available in most hardware stores.

Limited : Limited PPE includes use of a half-face or full-face air purifying respirator (APR) equipped with a HEPA filter cartridge. These respirators contain both inhalation and exhalation valves that filter the air and ensure that it is free of mold particles. Note that half face APRs do not provide eye protection. In addition, the HEPA filters do not remove vapors or gases. You should always use respirators approved by the National Institute for Occupational Safety and Health (see Resources List).

Full : In situations in which high levels of airborne dust or mold spores are likely or when intense or long-term exposures are expected (e.g., the cleanup of large areas of contamination), a full-face, powered air purifying respirator (PAPR) is recommended. Full-face PAPRs use a blower to force air through a HEPA filter. The HEPA-filtered air is supplied to a mask that covers the entire face or a hood that covers the entire head. The positive pressure within the hood prevents unfiltered air from entering through penetrations or gaps. Individuals must be trained to use their respirators before they begin remediation. The use of these respirators must be in compliance with OSHA regulations .

Disposable Protective Clothing

Disposable clothing is recommended during a medium or large remediation project to prevent the transfer and spread of mold to clothing and to eliminate skin contact with mold.

Limited : Disposable paper overalls can be used.

Full : Mold-impervious disposable head and foot coverings, and a body suit made of a breathable material, such as TYVEK, should be used. All gaps, such as those around ankles and wrists, should be sealed (many remediators use duct tape to seal clothing).

The purpose of containment during remediation activities is to limit release of mold into the air and surroundings, in order to minimize the exposure of remediators and building occupants to mold . Mold and moldy debris should not be allowed to spread to areas in the building beyond the contaminated site.

In general, the size of the area helps determine the level of containment. However, a heavy growth of mold in a relatively small area could release more spores than a lighter growth of mold in a relatively large area. Choice of containment should be based on professional judgment. The primary object of containment should be to prevent occupant and remediator exposure to mold.

Limited Containment

Limited containment is generally recommended for areas involving between 10 and 100 square feet (ft 2 ) of mold contamination. The enclosure around the moldy area should consist of a single layer of 6- mil, fire-retardant polyethylene sheeting. The containment should have a slit entry and covering flap on the outside of the containment area.

For small areas, the polyethylene sheeting can be affixed to floors and ceilings with duct tape.

For larger areas, a steel or wooden stud frame can be erected and polyethylene sheeting attached to it.

All supply and air vents, doors, chases, and risers within the containment area must be sealed with polyethylene sheeting to minimize the migration of contaminants to other parts of the building. Heavy mold growth on ceiling tiles may impact HVAC systems if the space above the ceiling is used as a return air plenum. In this case, containment should be installed from the floor to the ceiling deck, and the filters in the air handling units serving the affected area may have to be replaced once remediation is finished.

The containment area must be maintained under negative pressure relative to surrounding areas. This will ensure that contaminated air does not flow into adjacent areas. This can be done with a HEPA-filtered fan unit exhausted outside of the building. For small, easily contained areas, an exhaust fan ducted to the outdoors can also be used. The surfaces of all objects removed from the containment area should be remediated/cleaned prior to removal

Moisture Control is the Key to Mold Control

Full Containment

Full containment is recommended for the cleanup of mold contaminated surface areas greater than 100 ft 2 or in any situation in which it appears likely that the occupant space would be further contaminated without full containment. Double layers of polyethylene should be used to create a barrier between the moldy area and other parts of the building. A decontamination chamber or airlock should be constructed for entry into and exit from the remediation area. The entryways to the airlock from the outside and from the airlock to the main containment area should consist of a slit entry with covering flaps on the outside surface of each slit entry. The chamber should be large enough to hold a waste container and allow a person to put on and remove PPE. All contaminated PPE, except respirators, should be placed in a sealed bag while in this chamber.

Respirators should be worn until remediators are outside the decontamination chamber. PPE must be worn throughout the final stages of HEPA vacuuming and damp-wiping of the contained area. PPE must also be worn during HEPA vacuum filter changes or cleanup of the HEPA vacuum.

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Mold Remediation Guidelines - NC State University

NJ MOLD INSPECTION & MOLD TESTING

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> Mold & Moisture Inspection > Air and Surface Sampling & Testing > Detailed Independent Certified Lab Analysis & Inspection Reports > Correction Protocols

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> Non-toxic Mold Removal > Anti-microbial Treatments > Dehumidifying/Air Scrubbing > Dehumidification > Containment of Work Area > Preventative Treatments

NJ Mold Testing

Mold Inspection NJ. Mold Inspection and testing is about investigating and finding all of the mold at your property.Hygrometers, moisture meters,borescopes and even thermal cameras all used to help find mold that may be hidden. Air & surface samples are sent to 3rd party certified labs for analysis to identify mold species and determine spore counts after mold is discovered. Lab results help to decide the correct course of action for removal if above normal levels are found.

Mold Remediation NJ. Mold removal and mold remediation is all about removing mold and mold spores from your property. Mold removal procedures can differ for each project and usually involves: containment of worki area, disinfectant and anti-microbial misting, cleaning and treating of structural elements and application of patented polymer/silver ion sealer to prevent future mold growth.

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Widely accepted as a leading authority on mold inspection, mold testing, mold remediation, and mold removal, Absolutely Spotless, Inc. is affordable and offer practical solutions to your contamination problems. We're MICRO certified remediators, licensed, and of course fully insured. Absolutely Spotless, Inc. has been helping the residents of North Brunswick NJ, West Milford NJ, Secaucus NJ, Haledon NJ, Hampton NJ, and most other towns throughout the state since 1995.

Question: How does mold become airborne? In indoor environments mold will grow on moist surfaces such as the drywall, wallpaper, carpet, baseboards, and heating, ventilation and air-conditioning systems. As the mold grows, a stage is reached when it will produce spores. The spores then become airborne (aerosolized) after drying out or if they are disturbed.

If mold is Airborne in a building Air Duct Cleaning is necessary

Question: Can air duct systems become contaminated with mold? Yes, air duct systems can become contaminated with mold, either by supporting mold growth inside (e.g., from a dirty or clogged air conditioning pan, due to over-humidification of system, etc.) or by being a means of circulating and distributing spores from one location to other parts of the home.

Question: Should I have my ducts cleaned? That depends on the results to the air sampling that was taken in your home. If the airborne levels of moldare high in the home, we always recommend the Air Duct System be cleaned and sanitized.

Question: I have mold in my basement but no one ever goes down there. Can this be a problem? Yes. It is possible that contaminants can enter small openings in the ventilation system and be distributed to other parts of the home.

Question: Can ozone air cleaners improve or reduce odor or pollution levels? Some air cleaners are designed to produce ozone. Ozone is a strong oxidizing agent used as a disinfectant for water and sometimes to eliminate odors. However, ozone is a known lung irritant. Symptoms associated with exposure include cough, chest pain, and eye, nose and throat irritation. Ozone generators have been shown to generate indoor levels above the safe limit. Furthermore, it has been demonstrated that ozone is not effective in controlling molds and fungi, even at high concentrations far above safe health levels. Also ozone may damage materials in the home. For these reasons, the EPA strongly recommends that you do not use an ozone air cleaner in any occupied residential space.

Question: Can ozone air cleaners be used in unoccupied spaces? They are sometimes promoted to treat homes, furniture and clothing after fires to remove smoke odors. Ozone is a strong oxidizer that will accelerate the degradation of rubber, upholstery, paints and other materials. Hence even when used in unoccupied areas, ozone generators can cause damage to building materials and electronic devices. the use of Air Scrubbers is a much safer way to remove airborne mold contamination.

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Mold Removal, Mold Remediation, North Brunswick, West ...