While septic systems are a good choice in areas without sewer access, there are certain factors that can make a home and a septic system a poor fit. Before work starts, homeowners should Click here to review the following facts about Septic Services in Quakertown, PA.
The Size Of The Tank
Although some may think they can save money by buying a tank in a smaller size, the decision isn’t entirely up to the homeowner. In some cases, municipalities have stringent regulations on minimum septic tank size. Several factors determine the proper size, including:
* The size of the household
* The number of rooms
* Whether the house is equipped with a garbage disposal
At first, it might appear as though a garbage disposal doesn’t matter, but everything that goes down the drain can add to the layer of sludge at the septic tank’s bottom. For that reason, those with garbage disposals need larger septic tanks.
Drain Field Specs
Despite popular belief, a drain field can’t be placed just anywhere. It’s best not to plant anything over a drain field, except for grass to prevent soil erosion. Ensure that shrubs and trees don’t have roots that can interfere with the drain field’s function. Some soils aren’t conducive to proper septic tank operation; for instance, clay soil isn’t sufficiently porous to filter waste water. If the property is composed entirely of clay soil, the additional soil will be required for septic tank installation.
Regular Maintenance
The most important aspect for any homeowner to consider is that septic tanks aren’t as forgiving as sewers are. With a sewage system, pouring grease down the drain may not cause too many issues but in a septic system, grease disposal can bring about the need for frequent pumping and expensive septic services Quakertown, PA.
When considering the installation of a septic system, the family will need to re-evaluate the way they use water. In septic systems, doing several loads of laundry on one day can dump too much water into the tank at one time. Doing this can agitate the sludge layer, forcing matter up into the drain field and reducing its efficiency.