Notes

Slide Show

Outline

1	SRT Group, Inc., A Multi-Emission Control and Hydrogen Production Technology
2	Emission control legislation forces utilities to chose costly options and/or investment; all of which reduce earnings.
3	Current emission control processes are not satisfactory
4	An alternate emission control technology is secured by:
5	The SRT process is based on the Ispra Mark 13A process
6	Hydrogen Bromide Electrolysis
7	Electrolytic Hydrogen Production
8	Round-trip Efficiencies
9	Commercial Chlor-Alkali Electrolysis
10	Process Flow Diagram
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12	The SRT process adds value
13	Process Option 1 – Using scrap iron to produce additional hydrogen and more valuable ferro-sulfate
14	Process Option 2 – Using scrap aluminum, to produce hydrogen and aluminum sulfate
15	Process Option 3 – Ammonia production from hydrogen and nitrogen
16	Process Option 4 – Ammonium Sulfate production from sulfuric acid and ammonia
17	The SRT/Ispra process is cost-effective:
18	Financial Summary:
19	Cost Estimate Breakdown:
20	Impact of Capacity on Operating Cost, Revenue & Capital
21	Process Comparison 300 MWe:
22	SRT’s technology will provide operator advantages:
23	Emerging opportunities for renewable hydrogen
24	The SRT team:
25	Proposed 30 MW ‘Slipstream’ Pilot Plant Demonstration:
26	30 MW Demonstration Success Factors:
27	Multi-mission control is a $50 billion market
28	20 utilities dominate the multi-emission retrofit market
29	Commercialization Strategy
30	E-3’s Business Models
31	Commercialization will also provide societal benefits
32	Opportunity Review:
33	The SRT Solution: