Water Extraction in Austin, TX and What You Need to Know.
When your home has suffered from water damage, it can be a stressful and tense experience. If the damage is severe, you will need to hire professionals to repair and restore your home or business.
That’s where we come in as your highly recommended SERVPRO of Austin, TX, SERVPRO of South Austin with years of experience to help support you. Understanding what to expect from a water damage restoration company can help make the process less overwhelming.
There is no such thing as a small disaster, especially with intrusion of water you can’t see. It can contain bacteria, mold, rot, mold growing, or other unseen damage. Every water damage restoration project is different. The building (or structure) provides variables that may change with every project, such as the electrical system, type of building materials, or hazardous materials in the building.
The water loss itself provides variables, such as the sanitation of the water, hazardous substances in the water, length of time the water has been in the structure, presence of mold contamination, and mold growth. Take time to identify and resolve safety hazards before proceeding with the project.
Water damage can also affect the value of your property. Before you get out the mop bucket and clean the affected areas yourself, consider how the damage can potentially affect the long-term structure of your home or business.
SERVPRO of South Austin professionals know how disruptive water damage can be for your business and are trained to manage the drying process from start to finish at a pre loss condition. With rapid response time and a full line of water cleanup and restoration services, we can help you regain control quickly, by helping to ensure your facility and its contents are properly dried, deodorized and protected.
When we respond to a call for water damage repair, we have one primary goal: To dry wet building materials and contents items. As restoration professionals, we remove water and moisture from a wet building and return the building to what it was before the loss—before the water intrusion occurred.
Goals of Restorative Drying:
1. Return excessively wet materials to their normal (equilibrium) moisture levels.
2. Reduce the time that materials are excessively wet.
3. Determine the most cost-efficient procedures for drying.
To accomplish these goals, our team controls the airflow, humidity, and temperature to promote drying.
Moisture moves by four mechanical processes.
Liquid flow, air movement, capillary suction, and vapor diffusion.
1. Liquid flow. We most often observe moisture movement as water flows in liquid form. Liquid flow occurs as rainwater leaks through a roof, ground water soaks through a foundation, or water pours from a broken water pipe.
2. Air movement. Moisture in the air is carried by moving air. Air moves from high air pressure areas to low air pressure areas and brings moisture with it.
Moisture moves by airflow through cracks and small openings in a building’s envelope or as air pressure moves moist air through a chimney. Moisture and air moving from outside a building to the inside is called infiltration; moisture and air moving from inside to the outside is called exfiltration.
3. Capillary suction. Liquid moisture can move through a narrow pathway due to contact between the moisture and the surface of the path. Capillary suction allows liquid moisture to move through the pores of porous materials.
4. Vapor diffusion. Water vapor moves as a gas through materials. Water vapor moves from areas of high vapor pressure to areas of low vapor pressure.
Whether moisture moves through a material by vapor diffusion depends on whether differences in vapor pressure exist across the material. How fast moisture moves by vapor diffusion depends on how permeable the material is.
Before you risk any further damage and potentially effect the long term value of your property, call us as your local water damage, flood damage, fire damage, smoke damage, and cleaning services professional at SERVPRO of South Austin.