Recovered Energy, Inc.RECOVERED ENE

Recovered Energy, Inc.
RECOVERED ENERGY SYSTEMÔ
A PROCESS FOR RECYCLING WASTE THROUGH PLASMA GASIFICATION AND
CONVERTING IT INTO ENERGY AND OTHER VALUABLE PRODUCTS
BUSINESS PLAN
AND PROPOSAL
RECOVERED ENERGY, INC.
3411 Hawthorne Rd.
Pocatello, Idaho 83201
Email: nphanchai.f@gmail.com
Contact: Nop phanchai (66) 0800 533 009
Recovered Energy Business Plan (version 9.0) 1 03/18/05
TABLE OF CONTENTS
Table Of Contents 1
1 Executive Summary 2
2 The Project 7
2.1 Project Description 7
2.2 Requirements Of Each Participant 9
2.3 Project Purposes 12
2.3.1 Waste Management 12
2.3.2 Green Electricity 12
2.3.3 Purified Water 13
2.3.4 Vitrified Glass 14
2.3.5 Protection Of The Environment 15
2.3.6 Humanitarian Benefit 16
2.4 Project Schedule 16
3 Project Cost/Funding 17
4 Sources Of Revenue/Fee Structure 18
5 Transaction Structure And Project Team 20
5.1 Transaction Structure 20
5.2 Rei Project Team 23
5.3 Plant Operations 24
6 Funding Model 25
6.1 The Funding Program 25
6.2 Requirements To Submit Loan Package 26
6.3 The REI License 29
6.3.1 Site License 29
6.3.2 Exclusive Territory License 29
6.3.3 Continuing Support 30
7 Market Analysis 31
7.1 Landfills 31
7.2 Power Plants 32
7.3 Greenhouse Gas Emissions 33
7.4 Disaster Security 33
7.5 Pure Water 34
7.6 Processes For Handling Waste 34
7.6.1 Sorting And Recycling 34
7.6.2 Biological Processes 34
7.6.3 Pyrolosis 35
7.6.4 Small-Scale Gasification 35
7.6.5 Integrated Gasification Combined Cycle (Igcc) 35
7.6.6 Waste To Energy (Wte) Combustion Processes 37
7.6.7 Plasma Gasification Processes 39
7.6.8 Hybrid Processes 39
8 Analysis Of The Technology 41
8.1 Plasma Gasification 41
8.2 Power Plant 41
8.3 Other Equipment 43
9 Plant Operations 44
10 Financial Projections 45
11 Risk Analysis 46
11.1 Political Risk 46
11.2 Social Issues 46
11.3 Technical Risks 46
12 The Next Step 47
Exhibit 1 49
Exhibit 2 55
Recovered Energy Business Plan (version 9.0) 2 03/18/05
1 EXECUTIVE SUMMARY
Recovered Energy, Inc. (REI) is a project development, engineering and construction
management company that has designed a system for converting any type of waste into
electricity and other usable products with a 99.9% conversion rate and virtually no residuals.
The Recovered Energy System™ offers the first real long-term solution for the disposal of all
types of waste.
The objective of the Business Plan is to provide a comprehensive, financially attractive solution
to serious problems facing your community, with a positive environmental impact in a format
that is economically viable for the long-term and provides meaningful humanitarian benefits to
the community for the life of the project.
1.1 PROJECT DESCRIPTION
REI proposes to supply an Integrated Plasma Gasification Combined Cycle (IPGCC) Plant
capable of processing a variety of waste streams and producing electricity, glass and other
valuable products. Optionally, the plant can be configured to produce pure distilled water from
steam or the glass can be converted into ceramic products. The implementation of some of the
options will depend on the available funding. The power plant can be either a 50 cycle turbine
(Option A) or a 60 cycle turbine (Option B):
Units Option A Option B
Waste processing capacity tons/day 2,500 2,500
Power produced from the waste (A) mWh 73-105 73-105
Power produced from fossil fuel mWh 75-147 110-177
Total power produced (B) mWh 180-220 215-250
Distilled water capacity (D) m3/day 30,000 30,000
Ceramic capacity (E) tons/day 400 400
Employees required (C) each 280-320 280-320
(A) The power produced from the waste will vary depending on the moisture content and
characterization of the waste. The waste does not necessarily utilize all the turbine
capacity. The difference between the total power produced and the power produced
from waste comes from a fossil fuel such as natural gas or diesel fuel.
(B) The total power produced is the total net power after deducting the plant’s internal load,
adjusted for altitude. Option A is a 50 cycle turbine and Option B is a 60 cycle turbine.
(C) The exact number of employees will depend on productivity, employment philosophy,
wage rates and other factors.
(D) The distilled water is the maximum size of plant that is offered. The actual size of unit
used will depend on the need for water, the budget available and other factors.
(E) The ceramic capacity is the maximum offered capacity for the ceramic plant. The actual
size of the plant will depend on the budget available and other factors.
1.2 PROJECT OWNER/MANAGEMENT
The funding program offered in this Business Plan requires that the physical title to the plant
facility will be owned and held by a non-profit entity (hereinafter the “Owner”) formed by
REI and the Lender. However, the Owner cannot operate or manage the facility. Therefore,
a separate entity is selected (which can be the municipality, a company owned by the
Recovered Energy Business Plan (version 9.0) 3 03/18/05
municipality, a private company or a publicly held company) to manage the business. This
entity will enter into a license agreement with REI and will hold all the rights to the knowhow
and technology and will be referred to herein as “Licensee”. Both the Owner and
Licensee will share in the profits. An option can be granted for a transfer of ownership in the
future under specific conditions, if so desired by the Licensee.
1.3 LICENSE
The Licensee is required to purchase a license from REI. The license can either be a Site
License that covers a specific location and project or it can be a Territory License that covers
an unlimited number of plants within a defined Territory. The Site License has a fee of USD
$1,500,000 and the Territory License has a fee of USD $6,000,000.
1.4 PROJECT COST
The project cost is $950 million for either Option A or Option B. This is the maximum amount
of funding that is available under this Business Plan. The number of features that are available
will vary from plant to plant.
1.5 PROJECT FUNDING
The entire project funding (hard costs and soft costs) is arranged by REI at no cost to the
municipality. Debt service for the loan will be the sole responsibility of the non-profit entity.
The funding for this project comes from a loan that has been pre-approved and will be
provided by a private source, provided the business plan is not changed.
1.6 PHASED CONSTRUCTION
The project will be completed in two phases. Phase I includes the power plant, water distillation
system (if included), office building and engineering for Phase II. The power plant and water
distillation plant will be operational in 22-26 months and the power plant will begin producing
electricity using a fossil fuel (preferably natural gas). Phase II takes place concurrently with
Phase I but requires more time to complete. Phase II includes the balance of plant and will be
operational about 6-12 months after Phase I is complete. Once Phase II is complete the power
plant will switch from operating on fossil fuel to operating on a combination of synfuel from the
waste and fossil fuel. This approach allows the plant to begin generating revenues as quickly as
possible.
1.7 PRODUCTS PRODUCED
The Plant can be configured to produce the following products. The final selection of products
produced will vary slightly depending on the plant location, the needs of the community and the
options selected:
Ø Between 800 kW to 1,200 kW of electricity for every ton of waste processed, depending on
the moisture content of the waste, type of waste and other factors. The total nameplate
capacity of the power plant will be between 180 to 250 mWh, depending on whether it is a
50 cycle or 60 cycle turbine, the altitude, the turbine supplier, and other factors. The turbine
will first be used to produce power from the synfuel produced from the waste. Whatever
capacity is remaining will be used to produce power from natural gas or diesel fuel.
Recovered Energy Business Plan (version 9.0) 4 03/18/05
Ø Vitrified glass equal to the inorganic content of the waste, which can range from 10% to
25%. The glass can be used to produce various building materials, such as building blocks,
decorative pavers, roof tiles, floor tiles or concrete aggregate. The glass can also be used to
produce a variety of ceramic products.
Ø Up to 2,900 gallons (11.1 cubic meters) of purified, distilled water for every megawatt of
electricity produced. Low pressure steam from the process is used to distill an independent
source of water. The water distillation plant is tied to the power plant—not the gasification
plant and the water produced has no interrelation with the waste.
Ø Recycled metal, hydrochloric acid and several options of sulfur products.
1.8 PROJECT REQUIREMENTS
Ø Contracts for the supply of waste, purchase of electricity and purchase of water (if the water
option is selected).
Ø Raw water of almost any quality for the distillation unit equal to approximately five to eight
times the amount of distilled water produced (if the water option is selected). Good quality
water is needed for cooling tower and boiler blowdown if the distilled water option is not
selected.
Ø Natural gas and/or diesel fuel (as per spec) for the power plant to utilize the excess power
capacity.
Ø Land—approximately 35 ha (80 acres). This is the amount of land we would like to have,
allowing for expansion and room for some of the other features. The plant can fit on less
land if the land is not readily available.
Ø Raw materials—coke (3-5% of waste input), silica (2-4% of waste input), sodium hydroxide
(varies based on desired sulfur products produced) and miscellaneous water treatment
chemicals.
Ø A guarantee for the loan as described in more detail in this Business Plan.
1.9 SOURCES OF REVENUE
The Licensee will receive the following fees from the municipality or its separate contracting
agency:
Ø A tipping fee for each ton of waste that is delivered to the plant. There will be a basic rate
for municipal waste and yard waste. Other types of w