A consulting company providing consulting - PowerPoint PPT Presentation

Title: A consulting company providing consulting


1
LD Jellison, Inc.
A consulting company providing consulting
design services in biomass power generation and
sawmill design PO Box 820687 Vancouver, WA
98682 (360) 604-1936 Phone (360) 604-8462
Fax www.ldjellison.com
2
LD Jellison, Inc. is an EPA partner for Level 2
Feasibility Studies
3
LD Jellison, Inc.

• WE DO IT ALL
• FROM START TO FINISH
• Consulting company providing consulting design
  services in biomass power generation and sawmill
  design
• Over 200 cumulative years of experience

4
LD Jellison, Inc.

• Project Management
• Feasibility Studies
• Resource Analysis Management
• Financial Analysis Modeling
• Overall System Layout
• Cost Estimating
• Federal State Grant and Tax Incentives
• Detailed System Design
• Equipment Procurement
• Installation
• Start Up
• Plant Management

5
Producing Renewable Energy
6
Simplified Extraction Condensing System Flow
Diagram
7
Boiler System
8
Biomass - renewable organic material such as wood
comprises one of our oldest most prevalent
energy resource
9
Sustainable forests create an endless supply of
energy
10
Biomass power reduces green house gas by more
than 15 million tons annually
-Biomass Power Assoc., 2009
11
Biomass power plants remove 67 million tons of
forest residuals annually reducing the threat of
forest fires
-USDA, 2005
12
Biomass fuels include wood residuals such as

• Forest residuals
• Small trees undergrowth
• Slash piles
• Thinnings
• Urban wood waste
• Construction and yard debris
• Agricultural waste
• Orchard removals / trimmings
• Rice hulls
• Fruit pits

- Biomass Power Assoc., 2009
13
Biomass Fuel
14
Wood derived fuels accounted for 39 million MW
hours of net electricity generated in 2007
-Biomass Magazine Online , 2009
15
More than 100 biomass power plants operate in the
U.S. today
- Biomass Power Assoc., 2009
16
Automatic Bulk Material Reclaim System
17
Automatic Bulk Material Reclaim System
18
Biomass Facts

• Biomass power is the second-most common form of
  renewable energy
• Diverts 36 million tons of organic materials
  annually
• Out of landfills
• Openly burned
• Fueling forest fires
• 1 billion-a-year industry providing 14,000 jobs
  nationwide
• -Biomass Power Assoc., 2009

19
Generation from biomass is expected to grow from
39 billion MW in 2007 to 231billion MW by 2030
-EIA, AEO2009

20
LD Jellison, Inc.
A consulting company providing consulting
design services in biomass power generation and
sawmill design PO Box 820687 Vancouver, WA
98682 (360) 604-1936 Phone (360) 604-8462
Fax www.ldjellison.com
21
LD Jellison, Inc.

• WE DO IT ALL
• FROM START TO FINISH
• Consulting company providing consulting design
  services in biomass power generation and sawmill
  design
• Over 200 cumulative years of experience

22
LD Jellison, Inc.

• Project Management
• Feasibility Studies
• Resource Analysis Management
• Financial Analysis Modeling
• Overall System Layout
• Cost Estimating
• Federal State Grant and Tax Incentives
• Detailed System Design
• Equipment Procurement
• Installation
• Start Up
• Plant Management

23
CURRENT AND PAST CLIENTS Seneca Sustainable
Energy Biogreen Sustainable Energy Co., LLC F.H.
Stoltze Land Lumber Company Hampton Lumber
Mills, Inc. Vaagen Bros. Lumber, Inc. Yakima
Forest Products Warm Springs Forest Products The
Pacific Lumber Company Longview Fibre
Company Por-Tac Timber Products Stimson Lumber
Company Konkolville Lumber Company Idaho Forest
Industries Simpson Lumber Company Louisiana-Pacifi
c Corporation Pyramid Mountain Kinzua Resources,
LLC
24
Please Contact

• Larry Jellison President
• Email ljellison_at_ldjellison.com
• Rick Holbrook Vice President
• Email rholbrook_at_ldjellison.com
• Office 360-604-1936
• Fax 360-604-8462

25
LD Jellison, Inc. is an EPA partner for Level 2
Feasibility Studies
26
Is my facility a good candidate for CHP?
27
Stage 1

• Qualification CHP Project Development Process
• Goal Determine whether CHP is worth considering
  at a candidate site
• Timeframe 30 minutes
• Typical Costs None
• Candidate site level of effort required
• Minimal site information
• Average utility costs
• Questions to answer
• Economic suitability
• Technical potential
• Qualification

28
Stage 2

• Level 1 Feasibility Analysis
• Goal Identify project goals and potential
  barriers. Quantify technical and economic
  opportunities while minimizing time and effort
• Timeframe 4-6 weeks
• Typical Costs Up to 10,000
• Candidate site level of effort required
• 4-8 hours
• Meet w/engineer
• Provide utility data for previous 1 - 2 years
  provide anecdotal knowledge of building operation
  
• Questions to answer
• Preliminary Economic Analysis
• Conceptual Engineering
• Identifying Barriers

29
Stage 3 Level 2 Feasibility Analysis

• Goal Optimize CHP system design, including
  capacity, thermal application, and operation.
  Determine final CHP system pricing and return on
  investment
• Timeframe 1-4 months
• Typical Costs 10,000 - 100,000
• Candidate site level of effort required 16-80
  hours

• Questions to answer
• Site load profiles
• System operational schedule
• Capital cost
• Heat recovery
• Mechanical system components
• System efficiency
• Sound levels
• Space considerations
• System vibration
• Emissions and permitting
• Utility interconnection
• System availability during utility outage
• Availability of incentives
• Maintenance costs
• Fuel costs
• Economic analysis including life-cycle analysis

30
Stage 4

• Procurement
• Goal Build an operational CHP system according
  to specifications, on schedule and within budget
• Timeframe 3 to 30 months, depending on system
  size and complexity
• Typical Costs 1,000 - 4,000/ kilowatt (kW)
  installed
• Candidate site level of effort required Varies
  depending on procurement approach, similar to any
  construction project
• Questions to answer
• Permitting
• Financing
• Contractor Selection

31
Stage 5

• Operations Maintenance
• Goal Maintain a CHP system that provides
  expected energy savings and reduces emissions by
  running reliably and efficiently
• Timeframe Ongoing
• Typical Costs 0.005/kilowatt-hour (kWh) -
  0.015/kWh for maintenance, depending on type of
  equipment and operations and maintenance (OM)
  procurement approach possible cost for energy
  consultant to negotiate fuel purchase, depending
  on system size and in-house capabilities
• End-user level of effort required Varies
  depending on OM procurement approach