Financial Data

1
(No Transcript)
2
Vision Statement

• Our vision is to create a computer
• recycling business that is economically viable,
  environmentally progressive,
• and a positive presence in the
• communities that we serve.

3
Executive Summary

• Problem
• 500 million PCs will become obsolete from now
  until 2007. (National Recycling Coalition)
• Solution
• Reuse, reduce, and recycle.
• Numerous conveniently located drop-off
  facilities.
• Work with designers, Silicon Valley Toxics
  Coalition.
• Opportunity
• Availability of the out-of-use PC.
• Support the community through various activities.
• Reducing waste, saving landfill.
• Partnership with other businesses.

4
Executive Summary

• Financial
• Handling of monitors
• The storefront repair businesses at four
  locations
• Recycling of the CPUs et al.
• Resale of the refurbished computers

Financial Prospective
Capital Cost of the Plant
(FCI
)
772,620
L
Working Capital (0.20FCI)
154,524
Project Life (years)
10
Sales Revenue per year
2,380,258
Cost of Manufacture per year
2,009,994
Profit Per Year
370,264
5
Industry Overview

• Insufficient information on recycling and reuse
  industries.
• Difficulty in specification and evaluation of new
  business opportunities
• Recycling industries due to consumer or
  regulatory pressure.
• No benefit from favorable economics at first.
• General challenges
• An overall reduction in the cost of recycling (in
  particular, hand separation of components).
• Shipment of large number of the obsolete and
  environmentally dangerous parts.
• Lack of of organized collection and of design of
  recycling, and poor marketability.

6
Current Recycling

• Processes
• Labor intensive
• Can be more expensive than the revenue from the
  retrieved material.
• Computers and parts
• Donated or sold for low fee to public, low-income
  people and schools.
• For unusable monitors there is recycling charge
  of 10-50.
• Precious and base metals are extracted
• Remaining components can be shredded and sampled
  for value and sent to a smelter for final
  refining.

7
Sales Strategy

• Service to the communities
• Low-cost convenient recycling.
• Low-cost refurbished computer sales.
• Convenient computer repair (for any type of PC).
• Various community out-reach programs
• Education of the public
• Integration of computer repair companies and
  recycling facilities.
• Collaboration with other computer recycling
  companies.
• Collaboration with computer designers.

8
Target Market

• Seattle area
• Small businesses
• Family/individual consumers

Are you aware of computer recycling
programs?
No()
Yes ()
86
14
9
Organization
Everett
U-District
Primary
Bellevue
Tacoma
10
Satellite Facilities

• Located in commercial malls unlike other
  companies
• Will repair and sell refurbished parts, and
  systems
• Disassemble and presort computer parts
• Placement depending on demographics

11
Primary Facility

• South Seattle warehouse location
• Shredder, grinder, dust collection, flotation and
  jig separators
• 61,000lb per month of computer material
• 6,000 sq. ft. of space

12
Management Organization

• Sheri Moore
• CFO, President, Primary Facility Manager
• Krystyna Szul
• Marketing Officer, Bellevue Manager
• Darby Kozak
• Chief Engineer, Tacoma Manager
• Sang Lee
• Operations Manager, Everett and U-District Manager

13
Operations

• Around 23 full time and part time employees
• Primary facility manager works full time
• Satellite facility managers work part time to
  save money
• One full time driver to transport computer parts
  as needed

14
Potential Circuit Board Value
15
Equipment UsedShredders Grinders

• Shredder
• Cuts material down to 1/2 inch squares
• Can process up to 2000 lb/hr

• Ball Grinder
• Grinds material from 1/2 inch squares into fine
  powder.
• Can process up to 1000 lb/hr

16
Equipment Used Floatation Jig Separation

• Denver 3-cell floatation separation unit
• Separates of hydrophobic and high surface
  potential particles.
• Polymers and Sulfides separates to the top of
  the tank.
• 300 gallons/hr capacity

• 24 by 24 Simplex Jig
• Separates material based on density.
• Heavy metals separated from silica slurry
• 300 gallons/ hr capacity

17
Material Flow Chart
18
Revenue Per Year
19
Cost of Manufacture (COM) per Year
20
Financial Overview
21
Cumulative Cash Flow
22
Contacts and Machinery Sources

• Behr Metals, Inc. 1100 Seminary Street.
  Rockford, Illinois. 815-987-2750
• Halmark Refining. Mount Vernon, WA. Contact
  Anthony Senff.
• Krieger Tile. 1236 N.E. 103rd Street. Seattle, WA
  98125. Contact James Krieger.
• Reliable Resins Company. 6973 RidgeManor Avenue.
  San Diego California. USA 92120. Contact Lee
  Loventhal, Tel. (619) 287-0096
• Seattle Public Utilities. 710 Second Avenue.
  Seattle, WA 98104. Contact Shirli M. Axelrod
• Total Reclaim. BOX 24996. Seattle, WA. 98124.
  Contact Craig Lorch.
• http//www.moenbuilders.com

23
References

• Background Articles
• Arrandale, Tom. Recyclings Reality Check.
  Environment www.governing.com. October 2000.
• Colby, Richard. Nonprofit gives old computers
  new life. The Oregonian.
• Hileman, Bette. EU Wants Electronics and
  Electrical Products Recycled. CEN. July 10,
  2000.
• Jung, Leah. Bartel, Thomas. Computer Take-Back
  and Recycling an Economic Analysis for Used
  Consumer Equipment. Journal of Electronics
  Manufacturing. World Scientific Publishing
  Company. Vol. 9. No. 1. March 1999.
• Maxwell, Trevor. Old computers now todays waste
  problem. The Oregonian. August 6, 2000.
• Nevala, Amy. Bringem in Alive. Seattle Post
  Intellegencer. May 2000.
• Rose, Catherine M. Ishii, Kosuke. Product
  End-of-Life Strategy Categorization Design Tool.
  Journal of Electronics Manufacturing. World
  Scientific Publishing Company. Vol. 9. No. 2.
  April 1999.

24
References

• Background Articles
• Schuessler, Heidi. Circuits All Used Up with
  Someplace to Go. New York Times. November 23,
  2000.
• Turton. Bailie. Whiting. Shaeiwitz. Analysis,
  Synthesis, and Design of Chemical Process.
  Prentice Hall International. New Jersey. 1998.
• Veerakamolmal, Pitipong. Gupta, Surenra M.
  Analysis of Design Efficiency for the
  Disassembly of Modular Electronic Products.
  Journal of Electronics Manufacturing. World
  Scientific Publishing Company. Vol. 9. No. 1.
  March 1999.
• Viswanathan, S. Dr. Allada, V. A Framework for
  the Flexible Grouping of Products for
  Disassembly Journal of Electronics
  Manufacturing. World Scientific Publishing
  Company. Vol. 9. No. 2. April 1999.
• Zhou, Meng. Caudill, Reggie J. Sebastian, Donald.
  Multi-lifecycle product recovery for electronic
  products. Journal of Electronics Manufacturing.
  World Scientific Publishing Company. Vol. 9. No.
  1. March 1999.