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*7 Million Dollar Joint Venture Partner *
Synopsis & Summary
SUMMARY
The Halaco Site consists of approximately 27 acres, located on the Pacific Ocean shoreline south of the City of Oxnard, California. Industrial and open space land uses surround the Halaco Site, which is located within the Ormond Beach area. This area was once a vast region of tidal marsh lands extending from Point Mugu (to the south) northward to Port Hueneme. Halaco recycled aluminum, magnesium and zinc. It has been estimated that Halaco received and processed 500 to 600 pounds of magnesium-thorium scrap per year.
The aluminum scrap metal recycled by Halaco came from shredded cans, machine shop shavings, aluminum-copper radiators, and blocks of partially processed scrap aluminum from other countries. This scrap aluminum contained an estimated 1 to 3 percent copper, plus silver, zinc, lead, chromium, titanium, tin, and minute quantities of other impurities. The magnesium scrap metal came from Volkswagen motor parts and aircraft wheels. Feed stock such as scrap metal was fed into vats for melting. Impurities (slag) were skimmed off the top of the molten metal and washed. Slag that was dense settled to the bottom of these vats and was also removed and washed. Molten material in the middle (horizontally stratified) portion of the vat was considered metal suitable for sale as recycled material. This metal was decanted and poured into casts and sold as ingots. The two slags (top and bottom layers) were sprayed forcefully with water that dissolved away soluble salts used in the flux, leaving the metals behind. At some point during its operations, Halaco began depositing waste solids in the WDA area located to the north of the WMU.
The Site is situated in the southern edge of the Oxnard Plain groundwater basin. The plain is bounded
by the Santa Monica Mountains, Transverse Range, and Pacific Ocean. The strata in the Oxnard Plain comprise several thousand feet of marine and continental sediments of Tertiary and Quaternary age which were deposited on a pre-Cretaceous basement of igneous and metamorphic rocks. Groundwater level contours beneath the Site show that groundwater is moving towards the northeast, away from the Pacific Ocean.
The Pile (the “deposit”) is, in actuality, a pile of fine- to very fine-grained material stacked up in a pyramid-like structure 40- feet high. The sides have been “manicured” into a 40° slope. A single-lane road that circles the pile has been cut into the side of the pile approximately 20 feet from the bottom. Estimates of pile volume range from 700,000- to over 1,000,000 cubic yards. The pile in its current configuration has been subject to weather for over 4 years. Rainfall has created zones within the near-surface of the pile that are slightly indurated (hardened). However studies have shown that the pile is not mineralized in the sense that there are stratified zones of a higher concentration of any particular metal species. Some sort of ash has been reported to have been placed on the pile at the very end of “deposition”.
USEPA Region 9 has completed several rounds of soil sampling at the Site. The objective for their sampling was (is) to establish concentration levels of metallic compounds that exceed regulatory guidelines for human health and safety. The client had samples from the Pile assayed by several different laboratories. The EPA data and the client’s assay data have been interpreted with respect to metal species that may have commercial value. There are data to suggest that several metal species exist in the Pile in concentrations high enough to be economic. The total economic value of metals in the Pile may exceed $1 billion.
A major data gap exists concerning the structure of the Pile. Soil samples have been recovered from various depths in the Pile by EPA contractors. These boreholes have not been logged pursuant to mining industry objectives and standards. The entire Pile has not been sampled in a statistically valid manner such that defendable conclusions as to internal structure and composition may be made.
The material itself is in an ideal state for any of four extraction methods currently being used in the industry: acid leaching, magnetic separation, gravity separation, and water table separation. The issue with the material in the Pile is not that high concentrations of these metals exist, but that they are economically recoverable.
The conclusion drawn here is that data gaps exist and that more exploration should be conducted before any solid conclusions as to the fate of the Pile are made. The Pile should be explored in a gridded pattern that statistically ensures that the entire area of the Pile is represented. At each sampling location, the boring should be logged to the total depth of the hole (TD). Soil samples for analysis should be collected at 5-foot intervals from the surface to TD. A total of 248 samples are proposed. The assay should be conducted using ICP coupled with a “mass spectrometer” (“MS”), which has a multi-element capability and high sensitivity. The PMG group should be assayed using a fire assay technique.
Once we have the wash plants on site with in the first 3 months we will recover the following metals below for complete extraction and cleanup as requested by the EPA.Any question please contact me (909) 773-2220
Quick Details
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Packaging & Delivery
Packaging Details:
Export packing, each packed in a wooden case, or as per customer's requests
Delivery Detail: Within 10 days after the advance payment is made
Specifications
1. Automatic cleaning magnetic separator for conveyor belt
2. Suspended above conveyor belt to attract tramp ferrous elements
RCYD-T series automatic cleaning permanent magnetic separator for conveyor belt is made up of permanent magnetic
system, iron-cleaning belt, electric motor, motor reducer, the frame, drive drum, driven drum, etc. It is widely used together
with various kinds of belt conveyors, vibrating feeders, vibrating conveyors or chutes for attracting magnetic elements,
especially ferrous elements from non-magnetic materials and clean the magnetic elements automatically in continuous duty
occasions. This machine is widely used in cement, chemicals, plastics, coal, refractory, building materials, food and other
industries.
Working principle:When the magnetic separator operates, the materials on the conveyor belt pass beneath the magnetic separator, and the magnetic elements, especially ferrous elements in the raw materials will be attracted to the surface of the iron-cleaning belt. Driven by the motor, the iron-cleaning belt will move forward, and the magnetic elements on the iron-cleaning belt will be driven to move accordingly under friction force and effect of baffle plate. When the magnetic elements move away from the magnetic field area, as a result of their gravity and inertia, they will either fall to another conveyor belt on the left and be conveyed to the assembling area, or just fall to a collecting box beneath the magnetic separator, and this is the end of the automatic cleaning process.
Sketch drawing:
Condition: New Type: Magnetic Separator Production Capacity: 0.1~Place of Origin: Shandong, China Brand Name: SantianModel Number: RCYD-T seriesVoltage: 440/380/220VPower(W): 2.2~15 kWCertification: ISO9001:2008, API, Warranty: 12 monthsMagnetic origin: Permanent
Iron attracting ability: 0.1~35 kg
Technical specifications:
Model
No.
Adaptive
belt width
(mm)
Rated
suspension
height h
(mm)
Magnetic field
intensity at
RSH
(≥Gauss)
Depth of
materials
(≤mm)
Motor
power
(kW)
Adaptive belt
speed
(≤m/s)
Weight
(kg)
Main outline
dimensions
(mm)
A B C
RCYD-5 500 150 600 80 1.5 4.5 610 1900 650 900
RCYD-6 600 175 600 120 2.2 890 2010 670 1060
RCYD-
6.5650 200 700 150 2.2 1050 2100 680 1105
RCYD-8 800 250 700 170 2.2 1250 2200 720 1200
RCYD-
101000 300 700 200 3.0 1850 2500 750 1400
RCYD-
121200 350 700 250 4.0 2930 2900 780 1700
RCYD-
141400 400 700 300 4.0 3600 3000 810 1900
RCYD-
16 1600 450 700 350 5.5 4900 3200 830 2100
RCYD-
18
1800 500 700 400 5.5 6700 3500 920 2325
It will take about 8 – 12 weeks for the EPA to approve the work plan submitted to the EPA this will include the following;
1) The Completion Bond and Permit's required by the EPA from the good DR before the extraction process begins.
2) The targeted metals for immediate magnetic conveyor belt extraction will be :
Metals that we have planed for magnetic extraction process are as follows:
(NI) NICKEL 8.89 per pound 1,748 ton's Magnetic Recovery of-
(CO) COBALT 13.83 per pound 42 ton's Magnetic Recovery of-
(PB) IRON 112.00 per ton 92,000 ton's Magnetic Recovery of-
(MN) MAGANESE 2.20 per kg 24,000 ton's Magnetic Recovery of-
Our Geologist has confirmed that he will need to pull a Completion bond to confirm the completion of this massive privately funded project to clean up this magnificent pile of common metals and some PGM's.
Prepared By : Michael Mattison
GOD BLESS YOU Thank you humbly yours Michael Mattison IN GOD WE SECURE HOLDINGS CORP.
Phone (909) 773-2220 Skype ; mattison101
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