Thursday, April 10, 2014

What Are The Dangers Of Drywall Water Damage? - Nexphase Construction



NexPhase Construction

April 9, 2014









What Are the Dangers of Drywall Water Damage?

Staining and Bubbling

  • The most obvious danger involving drywall water damage is staining. When drywall is exposed to water, it can be irreparably stained with minerals contained in the water. If the drywall is painted, water can become trapped between the paper of the drywall and the layer of paint, causing bubbling and pitting.

Structural Weakening

  • When drywall is exposed to water, it becomes mushy and easily crumbles. In a bathroom, tile installed over drywall will be too heavy to be held by the material and will fall away. Items hung on wet drywall, such as frames and shelves, may tear out of the wall and fall. If it becomes sufficiently waterlogged, the drywall itself may fall away from its beams or studs.
  • Mold Growth

    • The most health-hazardous outcome of wet drywall can be mold growth. Wet drywall makes an excellent breeding ground for mold and mildew and can harbor potentially hazardous strains. If you see any black mold on your water-damaged drywall, avoid contact with the material and call an expert immediately to assist you in removing the contaminated drywall.

    Wire Exposure

    • If the piece of drywall that has been exposed to water contains electrical wires, you may have a larger problem on your hands. Once exposed to water, electrical wiring and junction boxes can be unpredictable and present a fire hazard. If you suspect the area of drywall that has been water damaged contains electrical wiring, shut off your main circuit breaker before probing behind the wall. If you confirm that there is, in fact, wiring behind the drywall, contact an electrician to assist you.


US EPA Ten Things You Should Know About Mold - NexPhase Construction










  1. Potential health effects and symptoms associated with mold exposures include allergic reactions, asthma, and other respiratory complaints.
  2. There is no practical way to eliminate all mold and mold spores in the indoor environment; the way to control indoor mold growth is to control moisture.
  3. If mold is a problem in your home or school, you must clean up the mold and eliminate sources of moisture.
  4. Fix the source of the water problem or leak to prevent mold growth.
  5. Reduce indoor humidity (to 30-60%) to decrease mold growth by: venting bathrooms, dryers, and other moisture-generating sources to the outside; using air conditioners and de-humidifiers; increasing ventilation; and using exhaust fans whenever cooking, dishwashing, and cleaning.
  6. Clean and dry any damp or wet building materials and furnishings within 24-48 hours to prevent mold growth.
  7. Clean mold off hard surfaces with water and detergent, and dry completely. Absorbent materials such as ceiling tiles, that are moldy, may need to be replaced.
  8. Prevent condensation: Reduce the potential for condensation on cold surfaces (i.e., windows, piping, exterior walls, roof, or floors) by adding insulation.
  9. In areas where there is a perpetual moisture problem, do not install carpeting (i.e., by drinking fountains, by classroom sinks, or on concrete floors with leaks or frequent condensation).
  10. Molds can be found almost anywhere; they can grow on virtually any substance, providing moisture is present. There are molds that can grow on wood, paper, carpet, and foods.

LibertyPumps SumpJet Water Powered Backup Pumps - NexPhase Construction

LibertyPumps 




SumpJet Water Powered Backup Pump
March 5, 2014










LibertyPumps SumpJet Water powered backup pumps can be a added ideal solution to a overactive pump or lowering a high energy bill!


SJ10 SumpJet®
Water Powered Back-Up Pump

1 1/2" Discharge

3/4" NPT Water Inlet Connection Accepts 20PSI up to 100 PSI inlet supply pressure*

The SumpJet® (Model SJ10) is a water powered back-up sump pump that will protect your basement in the case of a power outage. This unique product is powered by your municipal water supply** and requires no electricity to operate! With a compact high efficiency design, The SumpJet® removes 2 gallons of sump water per 1 gallon used. The SumpJet® is fully automatic, arrives completely assembled, and comes backed with Liberty's standard 3 year warranty.

*The SJ10 pumping performance varies with inlet water source pressure and pumping head. See complete specifications and performance chart for expected flow rates.


**The SJ10 requires an uninterrupted water source to operate. If you have a well pump, the SJ10 will not operate during power outages.

 https://www.youtube.com/watch?feature=player_embedded&v=MkYEtF7RXpg

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Cheltenham Beware of illegal Sump pump discharge lines - NexPhase Construction


Cheltenham Beware of illegal Sump pump discharge lines
March 5, 2014










Dont let your waterproofing contractor contribute to the water pollution!

Sump pumps illegally discharging into the sanitary sewer system is a major contributor to the water pollution in Cheltenham Township pa. During rainfalls, sump pump discharges can overload the sanitary sewers, causing sewage backups into homes and businesses that also infiltrate local waterways.Under the Sump Pump and Groundwater Standards Ordinance adopted, the Township will begin property inspections to identify and eliminate illegal sump pump connections. The inspections will take several years to complete. An inspector wearing proper identification will visit each property and ask to enter the premises. If no one is present, the inspector will leave information asking the resident to contact the Public Works Department to schedule an appointment at the property owner's convenience. The Township may periodically re-inspect any building or premise.See the full Sump Pump and Groundwater Standards Ordinance for more complete details.

Sump Pump Inspections 101 - NexPhase Construction



Sump Pump Inspections 101
February 1, 2014









Sump pump inspection Check list

GFCI -  It is possible that a GFCI can prevent electrocution, but it is extremely unlikely that a sump pump will energize water in the first place. It is much more likely that a GFCI will trip during safe conditions and deactivate the sump pump when it is needed. A sump pump is among the most critical of all household appliances, and its deactivation, especially if the tenants are not home, could allow catastrophic building damage. Codes recommend that appliances in basements and crawlspaces be connected to GFCIs to reduce the chance of electrical shock, but this advice is often ignored due to these concerns over nuisance tripping.an alarm. Sump pumps can burn out, lose power, become clogged or misaligned, or malfunction in a variety of other ways. It is valuable to have a warning device installed that will signal water build-up. These alarms can alert homeowners or neighbors of flooding so that it can be resolved before water damage occurs. Alarms are especially important in residences that are not occupied for long periods of time. Inspectors should keep in mind that, while an alarm can be helpful, it is not a requirement.

Check valve - A check valve is the same diameter as the discharge pipe into which it fits and is usually a different color. A check valve should be installed in order to prevent pumped water in the discharge line from re-entering the sump pit when the device is turned off. Without this valve, the pump will have to work twice as hard to remove the same column of water, which causes unnecessary strain to the pump components. A check valve can also prevent the rare yet disturbing possibility that a discharge line connected to a stream or pond will back-siphon into the sump pit.

Backup Battery power source - Power outages are most likely to happen during heavy rains and floods, which are situations when the sump pump is most needed. For this reason, combined with the nuisance-tripping from GFCIs, sump pumps should have a backup power source to rely on. A pump powered by a battery or the home’s water pressure can also be installed as a backup. Installation of a backup power source or backup pump is not a requirement, but can be offered to a client as a recommendation.

Sump pump basin - Is that pit large enough for your pump. The sump pit does not need to be constructed from any particular material, as long as it is solid and provides permanent support for the pump. It must, however, be large enough to allow the pump room to work properly. Some homeowners use a 5-gallon bucket as a sump pit, but this is insufficient. For most homes, the sump pit should not be less than 24 inches deep and 18 inches wide. One of the most common reasons why sump pumps fail is that the float gets jammed between the pump and the pit because the pit is too cramped.a cover. The sump pit should be covered to prevent water from evaporating into the home.

Discharge Location - Inspectors are not required to check for a proper discharge location. They can note an improper discharge if they see it, but searching outdoors for the discharge is not recommended. The following is good general information that can be passed on to the homeowner:Water must be discharged at least 20 feet from the building.Water should not drain back into the house! Cycling water will place unnecessary strain on the pump and can weaken the structure’s foundation.Water should not drain onto a neighbor’s property without their approval.Many jurisdictions do not permit pumped water into public sewer systems.Pumped water should never drain into a residence’s septic system. Especially during heavy rain, a septic drain field will become saturated and will struggle to handle the normal flow of water from the house. Additional water from the sump pump can damage the septic system. In summary, sump pumps are used to remove excess water from homes that would otherwise cause property damage. There are multiple types, but they all monitor water levels and ensure that they do not rise higher than predetermined levels. Proper maintenance and inspection will ensure pump efficiency and prolong their lifespan.