Category: Home Inspectors

Mold

Molds are simple, microscopic organisms that can grow virtually anywhere, both in homes and outdoors. Along with mushrooms, yeasts, and mildew, molds are classified as fungi. Molds typically consist of a network of threadlike filaments that infiltrate the surface on which the mold is growing. Molds reproduce by releasing spores, which are lightweight and small enough to travel through the air. Spores can resist dry, adverse environmental conditions, allowing them to outlive the mold that produced them.

Mold growth often appears as a green, gray, black, brown, or other discoloration on a surface. Eventually, mold growth results in the breakdown of the substrate. More than 1,000 types of molds have been found in U.S. homes.

Sources of Mold

Molds play an important ecological role in breaking down dead organic matter and returning nutrients to the environment. They require moisture and food to grow, and they typically thrive in warm, moist environments. Moisture is the key factor determining mold growth in the home, influencing both the types of mold present and the extent of mold colonization. A variety of materials found in the home, including insulation, wallpaper, glues used to affix carpet, backing paper on drywall, dust, and dirt, can serve as a food source for mold. Mold colonies can go dormant under adverse conditions and revive when favorable conditions return.

Health Impacts

Mold is a serious health hazard in the home environment, as it produces allergens, irritants, and in some cases, potentially toxic substances. Mold can also trigger respiratory problems such as asthma in vulnerable and allergic populations. Therefore, preventing and eliminating mold problems is a crucial part of ensuing quality housing conditions.

People are exposed to mold on a daily basis. Most exposures in the home occur when occupants inhale spores or mold fragments, which are components of household dust. They also may be exposed when their skin comes into contact with mold-contaminated materials.

Mold Removal Specialists

Mold is a natural living organism in the Northeast. It exists in the air in the form of microscopic spores that move in and out of buildings through doors, windows, vents, HVAC systems and anywhere else where air enters the residence. If you suspect you may have a mold problem, it is always best to have a certified mold inspector assess the overall condition of your home. Mold removal measures being outlining is a vital and pertinent way ensure proper remediation techniques are implemented at every jobsite.

Mold Testing & Inspection Process

• Send 2 certified technicians to the property to do a full five point inspection, visual and manual assessment

• Take air samples to check if there is mold in the air, and swab samples to check if there is mold on surfaces. We then check for possible water intrusion points that may lead to mold, and take non-invasive moisture level measurements

• Take photographs of mold specimen sources and attach them to a “Chain of Custody” document; a procedure compliant with legal standards for evidence. Additionally, we use particle counters in and outside your home to determine the amount of negative particles that are in elevated indoor levels as compared to the outside

• Use infrared camera technology to clearly show mold that may be growing behind walls, and moisture readers to detect moisture damage to drywall, insulation and other materials in your property

• Within 2-3 business days, provide you with a detailed report of the lab results. This report will advise on (1) whether there is mold; (2) severity of the mold growth rate; (3) the recommended remediation steps to remove the mold; and (4) instructions to prevent mold from reoccurring along with infrared photos of your property. Mold Removal guidelines are outlined in detail on all reports compiled.

Services Include

• Mold Testing of Surfaces and Air

• Leak Detection and Moisture Testing

• Arsenic and Bacteria Testing

• Volatile Organic Compounds (VOC) Analysis and documentation

• Recommendations for Removal / Remediation ( If Necessary )

• Infrared Thermography (Thermal imaging)

• Expert Witness Testimony

• Energy Audits

• Post-Remediation Testing and Inspections

• Advanced Mold Inspections

Guide to Handling a Mold Claim

It is important to document the conditions causing the mold and any water damage in the property.  Often times, landlords and associations will attempt to cover up the evidence and this is why it is important to have photographic evidence of the mold and water damage.  Make sure you have copies of the photos and keep them in a safe place.  These photographs may be important later on to document the condition of the premises when the mold was first discovered and prior to any remediation work being done.

It is important to have the property tested for mold. all mold inspectors are required to have a speciality mold assessors license.  It is very important to hire a licensed mold assessor or inspector who is an expert in mold testing.  We recommend having the licensed mold assessor perform an air sample in each room where the presence of mold is suspected.  In addition, the mold assessor should take a swab sample of any visible mold to verify the type of mold and the spore concentration

If the landlord or association isn’t aware of the mold problem, then they can’t be held responsible for your damages.  It is important to notify the landlord or association in writing (by certified mail) as early on as possible.  Since it is important that your notice comply with the law in order to succeed in your claim

Just because there is mold where you live doesn’t mean you are automatically entitled to damages.  You have to prove to the court that you suffered financial expenses such as: moving expenses, mold testing expenses, damage to your personal property, hotel bills and more.  It is important to keep your receipts and keep track of any lost days of work.  It is also important to make a list of all of your property that was damaged and locate any receipts showing how much each piece of property cost you to purchase.

If you believe that you are suffering from mold exposure, it is important to go see your doctor.  Any medical claim must be supported by expert testimony from a licensed physician.  Ideally, it is best to see a physician who has experience with injuries caused by mold exposure.  However, it is always a good start to see your regular physician.  The category of physicians that often are involved in the assessment of injuries from mold exposure include: allergists, pulmonologists, toxicologists and environmental specialists.

How to interpret your mold air sampling results.

Many have asked me about how to interpret indoor air quality results. Since there is very little to be found regarding mold test results and air sampling interpretation on the web, I have decided to share this information with the world. The following information is unofficial and opinionated in nature and is to be used as a guide to help understand mold concentrations. I have developed this guide through many hundreds of successful mold remediation projects. This guide shall not be considered a final conclusion of mold remediation requirements.

DISCLOSURE: The information contained in this document is unofficial and opinionated in nature and is to be used as a guide to help understand mold concentrations. This guide shall not be considered a final conclusion of mold remediation requirements and does not guarantee end results. Furthermore, this guide shall not be used to anticipate end medical result, always consult with your physician if you are experiencing a medical condition.

The Most Relevant Mold Species:

Penicillium/Aspergillus – The most common mold species to show up in Indoor and outdoor air samples. Most of the hundreds of sub-species are allergenic with only a few that are toxic. This group of species will grow with only the humidity in the air as its water source (even in relatively clean, mold-growth-free, indoor environments). Levels vary based upon activity levels, dustiness, weather conditions, outside air exchange rates, and other factors.

Basidiospores – Basidiospores are extremely common outdoors and originate from fungi in gardens, forests, and woodlands. It is rare for the source of Basidiospores to be indoors. However, Basidiospores may be an indicator of wood decay.

Cladosporium – One of the most commonly found molds outdoors and frequently found growing indoors. Spores from Cladosporium are generally present in outdoor and indoor air, even in relatively clean, mold-growth-free, indoor environments. Levels vary based upon activity levels, weather conditions, dustiness, outside air exchange rates, and other factors.

Curvularia – A common allergenic mold. Curvularia can grow on a wide variety of substrates.

Chaetomium – A common water marker that usually indicates wet paper and/or drywall. Chaetomium growth can be widespread, cellulolytic and very commonly found on damp sheetrock paper.

Stachybotrys – A common water marker and the most common toxic mold species. Stachybotrys is rarely found indoors, but when found, is an indication of a problem. Stachybotrys can be considered elevated at a very low concentration. Stachybotrys is commonly found indoors on wet materials containing cellulose, such as wallboard, jute, wicker, straw baskets, and other paper materials. Stachybotrys are widely considered the most hazardous form of indoor mold and are mycotoxin producing and must be removed. Whenever Stachybotrys are present, air sampling is highly recommended for clearance confirmation

Mold Spore Level Guide:

Identification of an active fungal growth or indoor reservoir can be extremely difficult without scientific testing, also known as scientific confirmation. Swabs, tapes and bulk samples are considered the lowest form of scientific confirmation as it only addresses a small localized area of confirmed mold growth. Swabs, tapes and bulk samples are capable of identifying mold types, but do not indicate the size of a mold contamination due to their localized testing.

Air sampling is considered the highest level of scientific confirmation as it not only confirms the presence of mold spores and types, it also indicates the quantified amount of mold spores in the air. This information can then be interpreted to understand the potential impact to health as mold spores caught in the air can be inhaled into the lungs. Mold spores found in the air are typically viable, meaning if conditions are favorable, they are able to grow.

YOUR SPRING GUIDE TO MOLD AND MILDEW

With spring comes an annual spring cleaning, warm temperatures, and humidity, that is the perfect environment for mold and mildew growth. Here are a few things you should know about mold and mildew during the spring season

Keep an Eye out for Mold Growth

Most mold growth is visible. In most cases, you can see mold developing in your home. Keep this in mind and keep an eye out for dangerous mold growth. If you see a mysterious growth growing on the inside of your walls or ceilings, its most likely mold.

The Difference Between Mold and Mildew

The main visual difference between mold and mildew is the texture. Mildew tends to be more of a powder texture, whereas mold tends to be thick and possibly have a fur-like texture to it. Mold can also come in a variety of colors and can grow in any moist environment. In contrast, Mildew is generally white or gray and grows on most plants or in shower grout.

Mold and Mildew Are Dangerous

If you have mildew or mold growing in your home, it could be a sign of a humidity or moisture level issue. Even something as small as slight mildew in your bathroom could be a sign of an issue that needs further investigation.

Mold Remediation

If you think you might have mold in your home, it is recommended that you have a mold inspection performed. If you are looking to have a mold inspection performed

WATER MATTERS

WHAT IS A TDS METER?

A TDS meter is a small hand-held device used to indicate the Total Dissolved Solids in a solution, usually water. Since dissolved ionized solids, such as salts and minerals, increase the conductivity of a solution, a TDS meter measures the conductivity of the solution and estimates the TDS from that reading.

WHY MEASURE TDS?

First, it’s important to know what TDS really is: Total Dissolved Solids. After water falls to the ground as rain, it dissolves the minerals present in the rocks and soil it passes over or through. As it dissolves these minerals, they remain in the water at varying levels of concentration. This is a very natural process and it helps make water taste “right” by slightly raising the pH of the water. The most common minerals found in water are Calcium, Magnesium, and Sodium.

Some areas of the country have higher levels of these dissolved minerals in their water making it “hard” and other areas have lower levels. Anything under 200 mg/L (or ppm) is good and 100 mg/L is considered excellent. As the TDS level goes below this level (as the minerals are removed) the water has a lower pH and becomes more acidic or corrosive. This causes a noticeable difference in the taste of the water. TDS levels over 400 mg/L are considered non-potable (don’t drink that stuff).

WHAT DOES TDS NOT MEASURE?

A TDS meter does not measure contaminants. It will not tell you if your water is healthy. Some healthy minerals like potassium, magnesium, and calcium can actually cause your TDS meter to spike.  So, any water filter with a remineralizer will cause the opposite effect on a TDS meter than you expect. Your water could also have heavy metals like lead, or other contaminants like pesticides, pharmaceuticals, or hexavalent chromium. The TDS meter will not pick these contaminants up.

DO YOU NEED A TDS METER OR A WATER TESTING KIT?

When considering water filtration, the short answer is: no – you do not need a TDS meter. Having your water tested using a test kit will provide a report that explains exactly what’s in the water – including those dissolved solids. You’ll find out what contaminants are in your water that causes you concern, and then you can find a filtration solution to meet all of your water goals.

DISCOVERING ALKALINITY IN OUR SCHOOL WATER

are testing for alkalinity in our school water because it is important that we understand what is in our school water. Alkalinity is important to have in our school water because if water is alkalinity free it is more likely to be prone to be acidic. Alkalinity helps the water stay stable in pH. It is essential for us drink clean water for health reason, plus us teens need water for our daily diet : ). Read to learn more about alkalinity and if it’s found in our school water.

What is Alkalinity?

Alkalinity is a measure of the capacity of water to neutralize acids or hydrogen ions. Alkalinity can sometimes be refereed as “Carbonate hardness”. Alkalinity acts as a buffer if any changes are made to the water’s pH value. The Alkalinity in the water will help keep the water’s pH stabilized. The drinking water and all water should be a pH of 7 meaning that it’s neutral.

High alkalinity is good to have in our drinking water because it keeps the water safe for us to drink. The amount of Alkalinity that should be in our water is 20-200 mg/L for typical drinking water. Alkalinity is basically dissolved minerals in the water that help neutralize the water we drink.

Where does it come from?

Most alkalinity in surface water comes from calcium carbonate (CaCO3) that come from rocks and soil. Limestone contains high level of calcium carbonate. The process is enhanced if the rocks and soil have already been broken up before entering the water. The dissolved minerals get into the water through construction and other processes

Procedure of Alkalinity Test;

First you have to fill the titration tube up to the 5ml line with water.

Then put one Bromcresol Green-Methyl Red tablet in the water. Cap and shake until the tablet disappears. The water might turn blue-green. If the water turns pink, the water doesn’t have alkalinity.

Then you fill the direct-reading titration with the Alkalinity Tiration Reagent B. Then fill the titration when the plunger is up to the zero graduation mark. After the plunger is up to the zero graduation mark, put the titration in the center hole of the titration tube cap.

Depress the plunger slowly till the titrate sample which is blue-green color changes to pink. The amount of Reagent B that is depressed into the titration until it turns pink is the amount of alkalinity in the water. It is measured my parts per million (ppm) out of 200 ppm.

Water Analysis

water analysis solutions help customers worldwide analyze even the most diverse matrices and time-sensitive drinking, surface, ground water and waste samples to ensure regulatory compliance aiding in our world-wide goal for contamination-free water. We have extremely reliable, proven ICP-MS, ICP-OES, GC, GC/MS, LC, LC/MS, LC/MS/MS and UV/Vis/NIR technologies for water testing.

Superior ICP-MS technology for lead, copper and other trace metals testing to ensure compliance with EPA, ISO and APAC regulations

Accurate and fast GC/MS technology for volatile and semi-volatile organic testing using enhanced sample prep and sample introduction applications ensuring the highest degree of instrument uptime

High quality optical features and excellent performance specifications from UV/Vis technology are perfect for reliable and accurate quantification of heavy metals and other inorganic and organic elements in water

Simple and effective tools to demonstrate regulatory compliance and identify the causes of non-compliance

Durable, unparalleled stability and reliability for standard testing, emerging microplastics applications and detection of nanoparticles

Nanomaterials and microplastics are not new to us. Nanomaterials, chemical structures with at least one dimension of 1 to 100 nanometers, are produced through natural processes such as volcanic eruptions as well as manufacturing. Microplastics are nearly all manmade material, plastic fragments or particles less than five millimeters in length. Although the benefits of plastics and nanotechnology are undeniable, there are mounting concerns over the potential negative impact they may pose to human and environmental health. Usage guidance and regulatory standards are evolving as these materials continue to be present in every day products.

Ammonia-nitrogen (NH3-N) occurs naturally in groundwaters at concentrations below 0.2 mg/L and up to 12 mg/L in surface waters, as a result of decomposition of organic matter. High concentrations of ammonia in surface waters are toxic to aquatic life and are indicative of contamination from industrial effluent, raw sewage and agricultural runoff. Ultimately the pH value of the water determines whether ammonia-nitrogen is found as NH4+, NH4OH or NH3. 1 In this application, the quantitative analysis of ammonia-nitrogen was performed using the LAMBDA 265™ UV/Vis spectrophotometer and CHEMetrics ammonia nitrogen cell test.

Water Quality & Protection

Ministry of Environment requires the City to provide notice to consumers about the quality of water produced and supplied. The City is also required to provide information on the performance of its drinking water system and submit water samples.

A cross-connection occurs when the water supply comes into direct contact with a contaminant. For example, when you attach your water hose to a pesticide sprayer, a dangerous cross-connection is created. If a drop in water pressure occurs, the hose could act as a link and subsequently siphon the pesticide in the sprayer back into the drinking water supply.

To ensure that potentially harmful cross-connections are avoided, the installation of backflow prevention devices in new homes and buildings is required.

You can help prevent dangerous cross-connections by:

Leaving a sufficient gap of at least 2.5 cm between the water supply and a potentially contaminated water source.

Never placing the end of a hose in contaminated water, such as a dishpan, a wading pool, fish tank or pail.

Attaching a hose connection vacuum breaker to outdoor taps when using a pesticide sprayer with your garden hose.

Installing a backflow prevention device.

Licensed Backflow Test Companies

To perform backflow prevention tests, plumbing companies must be certified by the American Water Works Association (AWWA) and licensed

Questions to Ask Before You Buy A Water Treatment System

The first step in choosing a water treatment device is to have your water tested. Tests should be done at an independent, state certified lab.

If the water test indicates that you have a problem, installation of a treatment system may be necessary to remedy it. Be aware that water treatment equipment has trade-offs. There is routine maintenance. Some systems may need to be periodically back-flushed, which will increase the wastewater load to your septic system. The treatment may remove one contaminant, yet add something else to your water. For example, an ion exchange system installed to remove iron and manganese, may add sodium to your drinking water, causing a potential problem for people with high blood pressure or on sodium-restricted diets.

Be a good consumer and do your research when shopping for water treatment equipment. The following are questions you can ask a water treatment professional or the water well contractor who installed the well to determine the type of system needed. Background information follows many of the questions. The extent to which the manufacturer or distributor is willing to provide answers can assist you in making an informed choice.

Were the water tests adequate?

Some water treatment companies include free in-home water testing in their services. Not all contaminants can be evaluated this way. For example, many man-made chemicals, which have been associated with serious health problems, must be analyzed in a laboratory with sophisticated equipment. The consumer must be wary of companies that claim that their home analyses determine more than basic water quality constituents such as hardness, pH, iron, and sulfur. Ideally, you should verify in-home tests with a water test conducted by a state certified laboratory.

Once you’ve accurately determined what contaminants and characteristics your drinking water has, the level detected will dictate the type of treatment system. Factors to consider include whether the water presents a health hazard and how the levels detected compare to EPA Federal and/or State Drinking Water Quality Standards.