How many septic systems are there in Kitsap County?
- Did you know that there are over 58,000 septic systems in Kitsap County? Almost all of the residential properties outside our cities are served by a septic system located on the property – often called an “on-site” septic system.
How do you abandon a septic tank?
Abandoning Septic Tanks and Soil Treatment Areas
- Remove and dispose of the tank at an approved site (normally a landfill).
- Crush the tank completely and backfill. The bottom must be broken to ensure it will drain water.
- Fill the tank with granular material or some other inert, flowable material such as concrete.
How much does it cost to fill in a cesspool?
Average Cost To Pump A Septic Tank The national average cost to clean and pump a septic tank is between $295 and $610 with most people spending around $375. Depending on the size of your septic tank, pumping could cost as low as $250 for a 750-gallon tank, or as high as $895 for a 1,250-gallon tank.
What are considered the two basic parts of the the onsite septic system?
A septic system has two basic parts: a septic tank designed to intercept, hold and partially treat wastewater coming from the home and a drainfield, or soil absorption field, which facilitates treatment and dispersal of clarified wastewater after it leaves the septic tank.
What happens in a septic tank?
The septic tank is a buried, water-tight container usually made of concrete, fiberglass, or polyethylene. Compartments and a T-shaped outlet prevent the sludge and scum from leaving the tank and traveling into the drainfield area. The liquid wastewater (effluent) then exits the tank into the drainfield.
What is septic abandonment?
An onsite septic system or any component thereof must be properly abandoned or removed when the useful life of the system or component has been exceeded or when it is to be abandoned. When a septic system or any component thereof must be abandoned or removed, it shall be completed in a safe and sanitary manner.
What does abandoned septic mean?
An abandoned septic tank means that the tank and the system are no longer in use. This can happen if a new tank & system needs to be constructed or that the property was able to connect to a municipal system. When either of those things happens, the proper steps need to happen to deal with the septic tank left behind.
What are the signs that your septic tank is full?
Here are some of the most common warning signs that you have a full septic tank:
- Your Drains Are Taking Forever.
- Standing Water Over Your Septic Tank.
- Bad Smells Coming From Your Yard.
- You Hear Gurgling Water.
- You Have A Sewage Backup.
- How often should you empty your septic tank?
Can you leave an old septic tank in the ground?
Tanks can be completely removed or they can be destroyed and buried in place. The decision depends on if you plan to use the land for something else, such as a home addition or pool, and need the remains of the tank out of the way.
How do you tell if your septic tank is full?
How to tell your septic tank is full and needs emptying
- Pooling water.
- Slow drains.
- Odours.
- An overly healthy lawn.
- Sewer backup.
- Gurgling Pipes.
- Trouble Flushing.
Does shower water go into septic tank?
From your house to the tank: Most, but not all, septic systems operate via gravity to the septic tank. Each time a toilet is flushed, water is turned on or you take a shower, the water and waste flows via gravity through the plumbing system in your house and ends up in the septic tank.
Can you have a septic tank without a leach field?
The waste from most septic tanks flows to a soakaway system or a drainage field. If your septic tank doesn’t have a drainage field or soakaway system, the waste water will instead flow through a sealed pipe and empty straight into a ditch or a local water course.
How long have wastewater treatment plants been in existence?
Wastewater treatment plants have been around since the late 1800s.
How often should a septic tank be emptied?
How Often Should I Empty My Septic Tank? To keep your sewage system running correctly, your septic tank needs to be pumped out or desludged every 1 -2 years. It is extremely important to keep your septic tank maintained.
How long do septic tanks last?
A septic system’s lifespan should be anywhere from 15 to 40 years. How long the system lasts depends on a number of factors, including construction material, soil acidity, water table, maintenance practices, and several others.
What to do after septic is pumped?
After you have had your septic tank pumped by a trusted septic company, there are some things you can and should do as the septic system owner.
- 1) Get on a Schedule.
- 2) Take Care of the System.
- 3) Know the Parts of Your System.
- 4) Check Other Possible Issues.
Septic System Abandonment
Your septic system has performed a critical duty for you. This on-site wastewater treatment and disposal system enabled your property to be developed even if municipal sewer was not available at the time. Now that you have connected your septic system to municipal sewer, you will need to take the necessary measures to completely abandon your septic system. The following are four basic actions to take in order to properly abandon your vehicle:
- It is recommended that when a qualified plumber has completed the installation for the connection to municipal sewer, a permanent cover be fitted on the existing sewer line that supplies the septic tank. The septic tank should next be pumped out by a professional septage transporter. Tank contents left in place may cause the tank to degrade, perhaps leading to the tank collapsing. Finally, the empty tank should either be filled with compacted clean soil or crushed in situ and then filled with clean soil when it has been completely filled. Tank lids have the potential to split and collapse over time if this process is not carried out. This creates a potentially hazardous condition and can result in the property owner becoming liable for the issue. If your septic system included a lift station (pump tank), you should consult with a certified electrician to ensure that the electrical wiring for the system is properly disconnected and secured. It is necessary to leave the pump tank after the wiring has been securely secured, as described in steps 1 through 3 above.
Rarely are septic tanks or drain fields dug and removed from a place. If it becomes necessary to remove system components, extreme caution must be exercised, and the excavated materials must always be handled and disposed of correctly. Septic tanks that have been improperly abandoned might pose a danger and generate unwanted conditions. Tanks that have collapsed pose a threat to the safety of humans and their pets. Tanks that have not been properly decommissioned may eventually get flooded. The consequences of this might have an influence on or even prevent future extensions or modifications to your home.
If a business or industry need extra information on how to properly abandon a septic system, it should contact the Metropolitan Council of Governments (MCHD).
Types of Septic Systems
Distribution of Gravity and Pressure MoundSand Filter is a type of sand filter. Other TypesOlder Versions Various types of septic (on-site sewage) systems exist, each with their own set of advantages and disadvantages. Because the soil and water conditions on a site might differ, many methods are available. It is critical to understand the sort of system you have in order to effectively maintain it. Learn more about the sort of system you have — It is possible to obtain information on your septic system if you live in one of the counties listed above: Clallam, Clark (including Island), Jefferson (including King), Kitsap (including Pierce), Skagit, Skamania, or Thurston (including Clallam).
Gravity System
Septic tanks, drainfields, and the soil underlying the drainfield are the three main components of a gravity-based system. An adequate depth of native appropriate soil under the drainfield is required for a gravity system of at least 3 feet.
How a Gravity System Works
Because heavy materials settle to the bottom of the septic tank when wastewater flows from the home into it, a sludge layer is formed on the bottom of the tank as wastewater flows into it through the input baffle.
Lighter materials, such as oil and grease, float to the surface, producing a scum layer on the surface of the water. The wastewater liquid in the centre of the system is channeled via the outflow baffle and into the next component of it. Regarding the baffle for the outlet:
- If your system does not already have one, you should consider adding an output baffle filter to your system. Designed to be installed in the outflow baffle of your septic tank, these filters provide a second layer of protection against suspended particles from entering the drainfield. Maintain your filter by removing it and cleaning it every 6 to 12 months. For those who already have a concrete baffle, you may want to consider hiring a professional to retrofit a plastic baffle in its place. Because of the presence of corrosive gases in septic tanks, concrete baffles are prone to degradation. A filter may be simply fitted on a plastic outlet baffle
- However, it is not recommended.
Distribution boxes (d-boxes) are commonly used in gravity systems to ensure that wastewater is distributed uniformly into each lateral pipe in the drainfield. Following collection in the lateral pipes, wastewater runs out of tiny holes into a gravelled trench, where it finally reaches the earth. Bacteria that thrive on oxygen and other microorganisms clean up wastewater by eliminating pathogens from it. The importance of this final stage of treatment in safeguarding groundwater and surface water cannot be overstated.
- A brochure entitled Understanding and Caring for Your Septic Tank System (PDF) is available for download.
Pressure Distribution System
Septic systems with pressurized chambers take treated wastewater from the septic tank and store it in a holding tank. When the soil and site characteristics necessitate controlled dosing, such as when there is only 2-3 feet of native appropriate soil beneath the drainfield, a pressure distribution system is employed. A pump, pump control floats, and a high-water alert float are all included within the pump chamber. Pump activity can be regulated either via the use of control floats or through the use of timed controls.
How a Pressure Distribution System Works
Wastewater is discharged from the septic tank and flows into the pump compartment. It is positioned on the floor of the pump chamber, which is where the pump itself is located. Inside the chamber, there are floats that are utilized to regulate the pump’s operation. The On/Off float activates the pump when the level of wastewater reaches a certain threshold. The pump distributes the wastewater across the drainfield lines in an even distribution. When the amount of wastewater within the pump chamber falls below a certain point, the pump is turned off to allow the drainfield soil to absorb the wastewater.
Please turn off the alarm and contact a competent expert.
Some systems, rather than using On/Off floats, employ a timer control panel.
- The following publications are available in PDF format: Understanding and Caring for Your Pressure Distribution System (PDF)
Mound System
In this case, the mound is a drainfield bed that has been raised above the natural soil surface using a specific sand fill material and then covered with suitable cover soil. They can be used in situations where there is only one or two feet of native suitable soil available. Within the sand fill is a gravel-filled or gravelless chamber bed, which is connected to the rest of the structure by a network of tiny diameter pipes.
How a Mound System Works
The pump distributes wastewater to the mound drainfield bed in regulated dosages, ensuring that it is distributed evenly throughout the pipes. Under low pressure, wastewater escapes from the pipes via the small holes in the pipes and trickles downward through the gravel, eventually reaching the specific sand fill. As the wastewater flows through the sand and into the natural soil, it is cleaned by microorganisms.
- Understanding and Caring for Your Mound System (PDF)
- Understanding and Caring for Your Mound System (PDF).
Sand Filter System
Sand filters are typically constructed of PVC or concrete boxes that are filled with a specified sand fill material.
A network of tiny diameter pipes is laid in a gravel-filled or gravelless chamber bed on top of the sand, and the pipes are connected to each other. They can be employed when there is just 1.5 feet of native, appropriate soil under the receiving drainfield, which is the most common situation.
How a Sand Filter System Works
The pump tank distributes wastewater to the sand filter box in regulated dosages, allowing it to be distributed evenly throughout the system. The wastewater exits the pipelines and trickles downward into the gravel, where it is treated as it passes through the sand filtering system. It is collected and sent to a second pump chamber, where it is discharged to a pressure distribution drainfield or a gravity flow drainfield, depending on the kind of wastewater treatment. The second pump chamber may be situated in the sand filter box, depending on the configuration.
- Learn more about your sand filter system with this brochure: Understanding and Caring for Your Sand Filter System (PDF).
Other Types
When a property does not have enough natural acceptable soil depth to offer enough treatment by itself, there are various alternative sorts of systems that may be used to treat the property. Among the several system types included in this category are Aerobic Treatment Units (ATUs) and Biofilter systems. For additional information on these sorts of systems, speak with a representative from your local health department.
Aerobic Treament Unit (ATU)
It is possible to utilize aerobic treatment units as a pretreatment device in locations where there is at least 1 to 1.5 feet of native appropriate soil underneath the receiving drainfield. A blower, also known as an aerator, introduces air into the ATU, so increasing the aerobic microbial activity. This sort of unit will frequently necessitate the use of a disinfectant such as chlorine or ultraviolet light treatment before the wastewater may be discharged into the drain field. An ATU is required to be examined by a manufacturer-certified representative and/or a representative of the local health jurisdiction at least once a year, and in some cases more frequently, by a representative of the local health jurisdiction and/or the manufacturer.
BioFilter
BioFilters are developed and placed on locations where there is as little as one foot of native, appropriate soil available for the filter to function. The product is self-contained and does not require the use of an extra drainfield-like component. Design, installation, and maintenance of these systems are all performed by BioFilter-approved specialists, according to the manufacturer.
Outdated Systems
Many various types of containers have been used as septic tanks in the past, and some of these containers may no longer be safe or functional. Prior to the 1970s, cinderblocks, wood, 55-gallon drums, and concrete were all acceptable materials for constructing septic tanks (manufactured or homemade). Concrete or steel tanks with a single compartment were prevalent from around 1965 to 1975. Metal tanks are prone to corroding and have been known to cave in. If you have an older system that was installed before to the 1970s, contact your local health agency to find out what sort of septic tank you have.
Cesspools
Older septic systems were occasionally constructed without the use of a septic tank to treat either a portion or all of the effluent.
A cesspool is defined as untreated wastewater that is discharged straight into a bottomless tank. In some cases, this sort of system may satisfy the criteria of a failure, and it would be necessary to discard it and replace it with an entirely new septic system.
Seepage Pit
Septic tank wastewater is treated at the first phase of treatment before flowing into a bottomless chamber, known as a seepage pit, which is often several feet deep and has no bottom. At these depths, the necessary oxygen is not always present to complete the final treatment, enabling untreated wastewater to seep into the earth. This may fulfill the criteria of a failure, and the system would need to be abandoned and replaced with a new septic system to be considered successful. Contact your local health agency to determine whether your septic system is obsolete and to receive advise on septic system improvements or replacements.
Video – Types of Septic Systems
- Septic System 101: The Fundamentals of Septic Systems
- Taking Good Care of Your Septic System
- A video on how to inspect your septic system yourself
- Using the Services of a Septic System Professional
- Safety of the Septic Tank Lid
- Symptoms of a Failing Septic System
Septic system inspection forms are online
For property conveyance inspections of septic systems, the Kitsap County Public Health District has created an online application, making it easier for people to acquire a septic system assessment and inspection for property transactions. In order to save making a special journey to the Health District, property owners, potential purchasers, real estate brokers, and title firms can now submit an inspection application request request online. The technology will also automatically email application status updates to owners and their agents, allowing them to follow the progress of their applications and approvals.
The goal of the inspection is to establish whether or not the septic system is operating effectively and whether or not the system’s operation is in conformity with all applicable permits and laws.
As part of the real estate disclosure form, a seller is expected to disclose information on the septic system, in addition to having it inspected by the Health District officials.
Kitsap County Public Portal
The address is 9159 DICKEY RD NWSILVERDALE,WA98383 in Silverdale, Washington. Parcel:192501-1-022-2007 The permit has been reissued as of today (after expiration or after being revised). Date of submission: April 30, 2018 Date of approval: September 26, 2018 Date of publication: October 2, 2018 Closed: Date of expiration: November 24, 2021 Inspections: Number of characters required: 26 14 people have completed the task.
Fees in total: $7,01490 It is possible that additional payments will be necessary. Project Name: KITSAP HUMANE SOCIETY – ADDITION/RENOVATION PHASE 12 Contact Information:
: | KCPW SILVERDALE RAGF |
: | Trish Walton with NL OLSON |
: | KITSAP HUMANE SOCIETY |
: | NL OLSONASSOCIATES INC * |
: | Rice Fergus Miller |
: | Cook, Lorie Limson |
Impact Fee Land Category: | |
Acres: | 7 |
Impact Fee Units: | |
Permit Base Hours: | 48 |
Parcel | Owner | Address |
---|---|---|
192501-1-008-2005 | KCPW SILVERDALE RAGF | **NO SITUS ADDRESS **UNKNOWN,WA 00000 |
192501-1-022-2007 | KITSAP HUMANE SOCIETY | 9167 DICKEY RD NWSILVERDALE,WA 98383 |
Sending in SubmissionsOn the next screen, upload documents in the PDF format. Each file should have a name that simply identifies what type of submission document it is. “Floor Plans,” “Engineered Structural Plans,” “Engineered Civil Plans,” and “Site Plans” are all examples of design documents. To upload files, go to the submission item and click the files link on the far right of the submittal item. The number of documents that have been uploaded will be indicated by the files link. If you do not upload all of the required submission papers, the processing of your permission will be delayed.
Submittal | Required | Received | Accepted |
---|---|---|---|
Approved Permit Documents and Plans: Print all files and keep onsite for inspections | No | 9/5/2019 | 1/16/2020 |
Completed Online Permit Form | Yes | 5/3/2018 | 5/7/2018 |
Project Narrative | Yes | 5/4/2018 | 5/7/2018 |
Notice of Decision associated with previous land use approval | Yes | 5/4/2018 | 5/7/2018 |
Water Availability letter | Yes | 5/15/2018 | 5/15/2018 |
Sewer availability letter | Yes | 5/21/2018 | 5/21/2018 |
Site Plans | Yes | 9/6/2018 | 9/6/2018 |
Application for Concurrency Test from Public Works | Yes | 5/4/2018 | 5/7/2018 |
Liability Insurance Certificate | Yes | 9/26/2018 | 9/26/2018 |
Affidavit signed by Engineer | Yes | 4/30/2018 | 5/7/2018 |
Certification from engineer of record | Yes | 9/18/2019 | 9/18/2019 |
Environmental (SEPA) Checklist | Yes | 5/4/2018 | 5/7/2018 |
Geotechnical Report | Yes | 5/4/2018 | 5/7/2018 |
Landscape plans | Yes | 9/6/2018 | 9/6/2018 |
Stormwater Packet | Yes | 5/4/2018 | 5/7/2018 |
Engineered drainage plans | Yes | 9/6/2018 | 9/6/2018 |
Engineered Drainage Report | Yes | 9/6/2018 | 9/6/2018 |
Solid Waste Documentation | Yes | ||
Request for a submittal item waiver | Yes | 5/4/2018 | 5/7/2018 |
No submittal item required for this line. Internal Use Only. | Yes | 5/15/2018 | 5/15/2018 |
Customer Response Letter to Information Request | Yes | 9/6/2018 | 9/6/2018 |
Erosion Control surety | Yes | 9/27/2018 | 9/27/2018 |
National Pollutant Discharge Elimination System (NPDES) permit from WA State | Yes | ||
Upload documents required prior to final inspection | No | 9/18/2019 | 9/18/2019 |
Steps in the Approval Process Follow the progress of your application through the approvals stage.
Step | Status | Date |
---|---|---|
Application has been submitted and is pending acceptance | Approved | 5/14/2018 |
Review Application Submittal for Completeness | Approved | 5/15/2018 |
PW – Concurrency Test Review | Approval Step Not Required (Deleted) | 5/15/2018 |
Notice of Application | Approval Step Not Required (Deleted) | 5/15/2018 |
Distribute NOA | Approval Step Not Required (Deleted) | 5/15/2018 |
Hearing Examiner Clerk Staff Report/Acceptance Letter | Approved | 9/27/2018 |
Receive signed pre-construction documents | Approved | 9/27/2018 |
Building Code Plan Review | Approved | 5/29/2018 |
Survey Review | Approved | 6/5/2018 |
Planning/Zoning Compliance Review | Approved | 9/21/2018 |
Environmental Review | Approved | 9/24/2018 |
State Environmental Policy Act (SEPA) | Approval Step Not Required (Deleted) | 5/15/2018 |
Solid Waste Review | Approved | 9/18/2018 |
Public Works Stormwater | Approval Step Not Required (Deleted) | 5/15/2018 |
Stormwater Review | Approved | 9/18/2018 |
Traffic/Roads Review | Approved | 8/9/2018 |
Fire Marshal Review | Approved | 9/26/2018 |
Health District Approval | Approved | 8/10/2018 |
Public Works Sewer Division | Approved per Public Works | 9/26/2018 |
Review for compliance with non-motorized access requirements | Approved | 6/25/2018 |
Traffic review by Public Works | Approved | 6/20/2018 |
PW – ROW Review | Approval Step Not Required (Deleted) | 8/10/2018 |
Reviewing Information Request Letter | Approved | 9/26/2018 |
Acceptance Letter | Approved | 9/26/2018 |
Start | Complete | Applicant Response |
---|---|---|
5/14/2018 | 5/15/2018 | |
5/15/2018 | 8/13/2018 | 9/11/2018 |
9/11/2018 | 9/26/2018 | 9/26/2018 |
FeesIt is possible that the fee totals listed below might not include all costs, such as fees based on hourly rates.
Fee | Amount |
---|---|
Permit Center Base Fee | $90.00 |
Application Fee Deposit | $6,240.00 |
Technology Fee | $62.40 |
Development Engineering Inspection Hours | $2,502.50 |
Reviewer Hours | $4,030.00 |
HD-1011 OSS SDAP | $130.00 |
Capacity Reservation/Concurrency Certificate without Building Permit | $200.00 |
Application Fee Refund/Invoice | -$6,240.00 |
Total:$7,014.90 |
Type | Number | Amount | Issued | Expires | Completed |
---|---|---|---|---|---|
Erosion Control Surety | 383620S | $10,000.00 | 9/24/2018 | 9/24/2028 | |
Stormwater Covenant | 201909170111 | $0.00 | 9/13/2019 | 9/13/2119 | |
Landscaping Performance Surety | 37K000246 | $2,500.00 | 9/25/2019 | 11/30/2020 | 11/24/2020 |
Inspections Inspecting all permits of this sort is common procedure, and it is possible that some of the inspections described below will not apply to your individual permission. Following the issuance of your permission, all of the inspections on the list will be applicable to your permit. Please keep in mind that the Community Development Building Final Inspections (B-Final), the Commercial CO Inspection Fire Marshal (FM-CO-Final), and the Final Field Inspections (DE-FFI) are not eligible for next-day requests.
Completed On | |
---|---|
Level 2 | 4/24/2019 |
In house preconstruction meeting | 10/2/2018 |
Clearing Limits Flag | 10/3/2018 |
DE -Temporary SiltErosion Control Inspection; initial inspection | 10/17/2018 |
DE -Temporary SiltErosion Control Inspection; recurring inspection | 9/24/2019 |
Detention Barrel Prior to Backfill | |
Outlet Control Structure “inspect before installation” | 9/17/2019 |
Storm Structures and Pipe Alignment | 9/23/2019 |
Bioretention | |
Pre-bioretention soil placement | |
Bioretention soil placement and pre-mulch/planting | |
Post mulch/planting and construction site inspection | |
Infiltration Pit – Stormwater System Inspection | |
Storm Water Infiltration System Inspection | 9/23/2019 |
PW Sewer Inspection | 5/1/2019 |
Soil Management | |
Asphalt Paving | 9/19/2019 |
Sidewalk form inspection prior to pour. | |
Sidewalks – Safety Items | 9/23/2019 |
Landscape Inspection | |
As-Built inspection for project closeout | 11/24/2020 |
Public Works Stormwater Final Field Inspection (Public System Only) | |
Optional inspection to produce a punchlist prior to Final inspection. | |
Final Field Inspection | 9/24/2019 |
Bond Release inspection | 11/24/2020 |
Final Field Inspection |
Structure | Use | Occupancy Type | Square Footage |
---|---|---|---|
KITSAP HUMANE SOCIETY – AdditionRenovation Phase 12 |
Conditions The criteria indicated below are normal for all licenses of this sort and may or may not apply to your individual permission. Please see your permit for further information. Following the issuance of your permission, all of the requirements specified above become relevant to your permit.
It is the responsibility of the applicant to print and bring to the pre-construction meeting two copies of the Accepted Plans. Accepted Plans shall be full-size plans, printed on minimum 22” x 34”, and shall be to scale. If the printed Accepted Plans are not brought to the pre-construction meeting, the Site Development Activity Permit cannot be issued. One copy of the printed plans will remain on file at the Department of Community Development, and one copy is required to be onsite throughout the construction period. Failure to have the Accepted Plans onsite may result in requested inspections not being approved. |
Permanent stabilization of the project site. |
Submittal of two blackline copies of as-built plans, and a reproducible mylar or scalable electronic PDF (once as-built copies have been approved). All sheets containing road and drainage plans, profiles and associated details shall be included in the as-built set. It is not necessary to include grading and erosion control plans. The as-built plan set shall be stamped “RECORD DRAWING” and shall be signed and stamped by a professional engineer or land surveyor. |
Completion, to the satisfaction of Development Services and Engineering, of all work indicated on the plans. |
The engineer shall provide certification to Kitsap County that the drainage conveyance pipes and structures were installed in compliance with the accepted plans. |
Verification by the Project Engineer that all construction has been accomplished in compliance with the recommendations of the geotechnical report dated (MM DD, YYYY), and any updates thereto. |
The initial permit fee for all SDAPs applies to review and processing through permit approval.All review, inspection and processing after the date of the approval letter will be charged at the DCD hourly rate.All fees must be paid prior to final inspection. |
Provide documentation of concurrence from the Geotechnical Engineer that the project as constructed meets their recommendations. |
Certification, by the Project Engineer, of the as-built live and dead storage volumes. |
Certification, by the Project Engineer, that the soils encountered under any infiltration systems are consistent with the design criteria. |
Submittal, by the Project Engineer, of the Operation and Maintenance Manual for privately maintained and/or non-standard stormwater facilities. |
Submittal of an Onsite Stormwater Maintenance Covenant is required for private storm drainage facilities, which gives Kitsap County the right to inspect the facilities and guarantees the county that the facilities will be properly maintained (enclosed). This covenant must be recorded prior to scheduling the final inspection. |
The engineer shall provide certification to Kitsap County that the soils under all pollution generating pervious surfaces have been amended. |
Provide certification by the Project Engineer that the as-built area and depth for the infiltration trench trench meets the design criteria. |
This project includes the construction of rock walls or other retaining facilities that either exceed four feet in height or sustain a surcharge. A separate building permit with an engineered design is required for such walls. This note shall be placed on the face of the final construction drawings. |
If septic tanks are discovered during site development abandon per code. |
Prior to completion of this permit with the Department of Community Development, the Applicant shall apply for and satisfy all conditions of a Right-of-Way Permit through the Department of Public Works for any and all work performed in the county Right-of-Way associated with this project. Apart from the Site Development Activity Permit (SDAP), the Right of Way permit may require extra work to comply with current Washington State Department of Transportation or Kitsap County Road Standards. You may contact Kitsap County Public Works, Right-of-Way Division at (360) 337-5777 to obtain a Right-of-Way permit. |
If the project clears over 5,000 board feet, a Danger Tree Site Evaluation will be required.If not over 5,000 board feet, please note the estimated timber volume. |
Type | Requirement For | Number | Status |
---|---|---|---|
Retaining Wall – Commercial | No | 18-05448 | Cancelled |
Right of Way Permit | No | 19-00913 | Finaled |
Ask the MPCA: Abandoned septic systems
Conditions Unless otherwise specified, all of the restrictions stated below are normal for all licences of this sort and are not guaranteed to be met by your individual licensee. Any and all of the requirements specified above apply to your permit after it is issued.
GETTING TO THE ROOT OF THE PROBLEM: Taking care of 60,000 septic systems in Kitsap County
Sun | Observational My problems began with a distinctive gurgling coming from the washing machine drain. At the end of the rinse cycle, water had backed up and formed puddles on the concrete basement floor under the sink. I had figured out what the problem was. According to a Bremerton-Kitsap County Health District specialist, it was not the earthquake, which is unlikely to cause problems with septic systems. My issue was a root invasion of my septic line, which has occurred for the second year running.
- Is it my next-door neighbor’s golden chain tree or a faraway willow?
- The clogged line served as a wake-up call, forcing me to pay attention to my septic system before it began to malfunction.
- Only a very modest level of usage kept me alive.
- When the service crews arrived at one beachfront home, tree roots had packed the 150-foot septic pipe so tightly that the backed-up sewage erupted in a 20-foot geyser when they attempted to clear the line.
- The septic tank of a house surrounded by trees was entirely filled with roots.
- For me, my septic system’s failure was more than just an embarrassing secret hidden from everyone but my septic professional and my bank account.
- IMPORTANT LINK TO THE ENVIRONMENT Ordinary homeowners, such as myself, are unaware that septic systems are a critical link in the natural cycle, with the ability to be beneficial or detrimental in nature.
The septic professionals are aware of this.
They emphasize the need of taking proper care of one’s backyard systems.
Septics will be around for a long time.” The West Sound region is particularly exposed to the effects of faulty septic systems.
The state of Washington passed legislation in 1995 to enhance the water quality of Puget Sound by requiring regular septic inspections.
Alternative systems – of which there are roughly 3,000 in Kitsap County – are subject to more stringent regulations.
The Bremerton-Kitsap County Health District was one of the first to recognize the importance of water quality.
On-site sewage/water quality program manager Keith Grellner noted that the district “knocked on every single door, informed them of the project, asked to perform an assessment, and worked with them to get concerns fixed.” When compared to other counties, Kitsap County residents have been welcoming to the pollution identification and repair program.
- Moreover, the return has been a reduction in the number of problematic septic systems, particularly those that were extremely severe and resulted in a public complaint.
- Approximately half of the Dogfish Creek watershed has been completed, the upper Union River is scheduled to be completed in 2002, and 38 additional locations are on the to-do list.
- “It doesn’t make a difference that it’s in your back yard.” I had no notion that my minor root problem was affecting anybody other than me and my small Bremerton yard.
- According to Dick Burleigh, a private contractor and on-site instructor, “there is a general lack of awareness among homeowners about what happens in the septic system.” What causes good systems to fail?
- On the top and bottom of the tank, Hemley’s two-man crew discovered a dense layer of sludge that had built up over time and prevented appropriate drainage from occurring.
- If the tank had been neglected, it would have backed its sloppy load into the house.
- Her lesson came at the expense of a few more minutes of pumping time.
The only way to find out was for me to spend my hard-earned money on an expensive new weapon in the sewer-fighting arsenal: a video camera that goes through the pipes and displays the image on a television-sized monitor.
The rosemary shrub was identified as the source of my problem by the septic company; the rosemary bush’s embrace of the sewage pipe explained its enormous growth.
Those who work in the septic industry say root killers that contain 99 percent copper sulphate should be avoided at all costs.
The state keeps a list of additives that have been approved.
Naturally, a microbiologist with Roebic Laboratories, a company that specializes in wastewater treatment and disposal, disagrees with the local wastewater treatment and disposal specialists’ reservations regarding additives.
He further stated that root killer, a chemical subject to EPA restrictions, is non-toxic and non-polluting when used in accordance with the manufacturer’s instructions.
A new septic problem presented itself: should I replace or leave the existing pipe in situ.
I, as well as any other septic system owner in Kitsap County, can seek the help of the health district, which is responsible for preserving public health in the county.
Alternatively, for a price, they can do a thorough assessment and make recommendations.
Some signs of trouble include sewage odors, sluggish or clogged drains, puddling in the earth over a septic tank or drain field, and run-off from a drainage field.
So I’ve learnt this valuable lesson: take good care of your septic system, and it will take good care of you in return. Deborah Woolston can be reached at (360) 792-9218 or [email protected]. She is a reporter for The Sunlink.
Septic System Abandonment
What is the reason for abandoning a septic system in the first place? Onsite Wastewater Treatment Systems, often known as septic systems, are systems that treat residential sewage and wastewater on the premises where they are installed. When septic systems are no longer required (for example, when a building is connected to a public sewer system, when a tank or septic system is being replaced, or when a building project, such as the demolition of a home, necessitates their removal), they must be properly abandoned in accordance with applicable regulations.
What is the process of abandoning a septic system?
Septic tanks, pump or vault tanks, holding tanks, cesspools, and seepage pits are all included in this category.
There are some construction projects that necessitate the removal of a leach field, although it is not normally required by the Department of Environmental Health to do so.
- Obtain a permit for the abandonment of a septic system. Submit a Septic Abandonment Permit to Environmental Health for inspection and approval, along with the necessary cost and needed documents (which should include a plot map indicating the tank’s placement in relation to the property boundaries and structures on the land). Work can begin as soon as the permit has been granted and issued by the appropriate authority. The Septic Abandonment Permit may be found here, and the fee schedule can be found here. The septic tank must be drained dry by a septage pumper vehicle that is registered with the county of Yolo. Environmental Health should be provided with a copy of the pump receipt. If you are leaving a septic tank in place (using the burying option), you may find a list of Yolo County registered septage pumper vehicles here.
- Septic Abandonment Permit should be obtained. Septic abandonment permits must be submitted to Environmental Health for inspection and approval along with the necessary fee and accompanying documents (which must include a plot plan indicating the tank’s placement in relation to property boundaries and structures). The permission has been granted and issued, and work can begin at that point. For the Septic Abandonment Permit and the fee structure, please visit the following links: Septic tanks in Yolo County must be pumped dry by a septage pumper vehicle that is registered with the county. Make sure Environmental Health has a copy of the pump receipt. If you’re leaving a septic tank in situ (using the burying option), you may find a list of Yolo County registered septage pumper vehicles here.
Obtain a Septic Abandonment Permit from the local government. Submit a Septic Abandonment Permit to Environmental Health for inspection and approval, together with the necessary cost and needed documents (which should include a plot map indicating the tank’s placement in relation to property boundaries and structures). Work can begin as soon as the permit has been granted and issued. Click here to get the Septic Abandonment Permit, and here to view the fee structure. The septic tank should be drained dry by a septage pumper vehicle that is registered with the County of Yolo.
If you are leaving a septic tank in place (using the burying option), you may find a list of Yolo County registered septage pumper trucks by clicking here.
- An inspection is necessary prior to backfilling or burying a tank that has been abandoned in situ (burial technique). When removing a tank from the ground, it is necessary to conduct an examination before removing the tank from the ground.
A tank must be inspected prior to being backfilled or buried if it is left in place (burial technique). When removing a tank from the ground, it is necessary to conduct an examination before removing the tank.
Registered Septic Tank Pumpers pumping a tank.Notice the pressurized water hose used to knock down all solids for pumping. | Pump Receipt |
Pumped tanks available for inspection,prior to removal. | Pumped cesspool prior to abandonment. |
Backhoe destroying tank bottom and sides forfinal backfill/burial. | Cracked tank bottom.In this picture, the tank side(s) have been removed. |
Tank removal. | Tank backfill/burial. |