Vault Maintenance System - PDF

Vault Maintenance System SleeveSediment Removal Efficiency Test and
Oil Removal Efficiency Test

A full scale test was performed to determine the sediment removal efficiency of the Vault Maintenance System (VMS). The VMS was designed to allow the direct discharge to the environment of waters accumulated in underground vaults while complying with discharge guidelines set forth by regulatory agencies.

The standard reference sediment used in this performance test was Sil-Co-Sil 106 , obtained from US Silica. This silica powder is the benchmark to test BMPs for efficiency of sediment removal. The regulatory goal for sedim ent removal efficiency using Sil-Co-Sil 106 is 80%. Anything above this value is considered excellent.

Sil-Co-Sil 106 has 27 percent of its particle sizes between 150-45 microns and 73 percent below 45 microns, with 12 percent 1.5 micron and below, of which 3 percent are sub-micron.

Sil-Co-Sil 106 Particle Size

VMS TestThe test was conducted using two 360 gallon open top storage bins. One used as a sediment holding vault, the other as a receiving vessel. A channel connecting the two bins held the VMS. The VMS was connected to a two-inch hose with an in-line turbine flow meter and pressure guage. The assembly was connected to a 110 gpm submersible centrifugal pump.

The holding tank was filled to capacity and Sil-Co-Sil 106 was added to the water. The circulation valve was opened and the water was re-circulated until the Sil-Co-Sil 106 was consistently mixed, at which time the initial sample was taken. Samples were taken from the outfall channel after filtering thru the sock at 1 minute intervals.

A final sample was taken from the receiving tank representing a composite of the total filtrate from the sock.

The samples were analyzed for Total Suspended Solids (TSS) using EPA Method 160.2.

The results are as follows:

TSS EPA Method 160.2

Conclusion: The filtration efficiency increased with time. This was due to sediments being deposited within the VMS, filling in the fabric’s micron pores, allowing enhanced removal of sub micron particles. Flow rates will vary depen dent on the sediment’s micron ratings. Sil-Co- Sil 106 is an extremely fine powder, unlike normal s ediments. Natural sediments such as soil or cinder clay allow much greater flow rates and loading as the larger particle sizes keep the fabric’s micron pores from sealing off. The overall sediment removal rate from the total of the filtrate was 98.3 percent, which far exceeds the 80 percent standards for rating BMP devices.

Oil Removal Efficiency Test

VMS TestingThe Vault Maintenance System (VMS) consisting of patented and proprietary technologies, configured as a multi-staged filtration unit, was designed to remove hydrocarbons and sediments from the water. VMS Testing

One half quart of motor oil and cinder clay was added to the holding tank and re-circulated with the centrifugal pump to maintain the oil and clay in suspension.

The initial sample was taken from the sampling valve located just before the VMS, and the subsequent samples were taken from the outfall channel after filtering thru the VMS. The flow rate during this test maintained a flow rate above 30 GPM with a pressure of 3.0 PSI. The VMS retained over 5 pounds of sediment during the test.

The samples were analyzed for total Oil & Grease using EPA Method 1664.

The results are as follows:

Oil and Grease EPA Method 1664

VMS Before-After


The VMS had the ability to remove the 2270 Mg/L oil in the sediment-laden water to non-detectable levels and no oil sheen was visible in the receiving vessel for the duration of the test. The above testing validates that the Vault Maintenance System when used as directed, is a valuable best management practice — BMP — tool.

The Xextex Corporation, USA

Jerry M. Brownstein
President & CEO
1420 NW Gilman Blvd. #2227
Issaquah, WA 98027

Phone: (425) 392.3848
Fax: (425) 392.0222


90 SEC

X-TEX Outperforms Polypropylene



*X-TEX does not produce
potable water.

10.5 MIN