Luce Township Regional Sewer District Community Forums

1. Luce Township Regional Sewer District Community Forums June 17 and 19, 2008

2. Welcome and purpose • Review the facts and answer questions that residents have about the proposed sewerage system. • Review the feasibility of using an alternative wastewater treatment options. • Share some recommendations for moving forward. • Identify the key challenges that residents have.

3. The Team • Contracted by the Spencer County Chamber of Commerce • USI Center for Applied Research • Sue Ellspermann, PhD • 20+ years facilitation experience • USI Dept of Engineering • Dr. Mamun Rashid, PhD in Civil and Environmental Engineering from U of Utah and experience working for 4 engineering firms. • Thanks to all who shared information including the LTRSD Board, Commonwealth Engineering, BernardinLochmueller, and interested community members.

4. Our Agenda 6:45 History of the Luce Township Sewer Project (Grady) Q&A 7:00 Engineering Design review, insights and recommendations (Dr. Rashid) Q&A 8:00 Community Process 8:30 Closing comments and next steps

5. What do you see?

6. Groundrules • There will be differing perspectives represented tonight. • Listening to one another carefully. • Please do not “kill” each others’ ideas and comments. • Try to hold Q&A to the end of each presentation. • However, if you need us to clarify along the way, let us know.

7. History of the project • Q&A

8. Analysis of Wastewater Management OptionsLUCE Township Regional Sewer District Presented by: Dr. Mamunur Rashid Community Forums – South Spencer High School June 17 and 19, 2008

9. OUTLINE • Background - key issues, alternatives to consider • Overview of PER & feasibility study • Fact sheet – septic tank & soil absorption system • Soil & Water Quality conditions – NRCS/Dr. David Ralston study • Alternatives (Eco-treatment wetland) – Fulda type • Proposed solution to wastewater management • Summary, conclusions

10. KEY ISSUES/FRAMEWORK • Wastewater management challenges in LTRSD • Economics, feasibility, cost effectiveness • Preliminary Engineering Report (PER) by Commonwealth Engineers • Feasibility study by BernardinLochmueller • Real concerns about cost: cost-effectiveness of proposed sanitary sewerage system • Willingness for moving forward

11. ALTERNATIVES • Do nothing - allow the existing septic tank and absorption system to exist, let them deteriorate • Implement sanitary sewerage alternative designed by Commonwealth Engineers • Consider other alternatives such as: • Eco-treatment Wetland - as used in Fulda

12. PER FINDINGS • Existing system deficiencies: • System constructed prior to soil evaluation requirement • Many systems have direct connections to surface water bodies • Soil conditions/high groundwater levels do not allow for the repair/rehabilitation of most of the system within current regulations • Approximately 13 project locations are designated as 100-year floodplains • 4 wastewater treatment alternatives were identified

13. PER RECOMMENDATIONS • Alternative C – 3 (all areas and treatment at Rockport) appears to be cost-effective • No significant negative environmental impact is expected • Right-of-way/Easement acquisition will be required • Purchase of land for lift station will be necessary • Easement for sewer lines/grinder pumps necessary • Inter-local agreement will be necessary

14. FEASIBILITY STUDY (BernardinLochmuehler) • Findings/Recommendations • 90% of County soils are unsuitable to septic systems • Most existing septic systems failed or are failing • Discard existing septic systems to eliminate non-point source pollution • Provide wastewater collection and treatment facilities • Use “Regionalization” approach

15. SEPTIC SYSTEM SURVEY Facts, Figures & Pertinent Study 

16. SPENCER COUNTY HEALTH DEPARMENT (2001) • Strongly Supports sanitary sewer project • Rationale: • On-site system failure is well documented • Causes of failure: flood-zone, topography, lot size, high groundwater table, and slow permeability of soils • Consequences: closure and/or limited use of food establishment; several residences have been forced to vacate • Conclusion: • Many problems cannot be solved by on-site disposal method • Sanitary sewer is the only solution

17. INDIANA STATE DEPT OF HEALTH (2007) • 261 locations (35%) were surveyed • Status of system failures • 16 observed to have failed • 11 had a history of failure • 5 had past failure documented by local health department • 23 locations or structures identified as vacant during survey

18. ISDH RECOMMENDATIONS • Existing system status • 82 (31%) had construction permit for new or repair; 32 (12%) inadequate system; 147 (56%) no information • Availability of room for replacement • 164 (63%) had adequate area; 61 (24%) limited area; 36 (14%) inadequate area • Existing soil • 43 (16%) had specific soil descriptions; 8 (19%) had soil descriptions not conducive to onsite system installation (pursuant to IAC 6-8.1)

19. SOIL AND WATER QUALITY PUBLICATIONS: 1. Soil Survey of Spencer County by NRCS 2. Preliminary Engineering Report

20. ENTITY - HATFIELD • Predominant Soils: Wheeling • Limitations for onsite system: small lot size; large number of failing system in close proximity; adjacent flood plain; • Classification of absorption field Limitations: Slight • Water quality of stream (E. Coli/100 mL of sample): 14,000 • Need for wastewater facility: Severe

21. ENTITY - RICHLAND • Predominant Soils: Wheeling, Weinbach • Other considerations: 3 homes vacated; closing of a tavern; • Limitations for onsite system: Slow permeable soil; small lot size; high water table; improper construction of existing system • Classification of absorption field Limitations: Slight to severe • Water quality of stream (E. Coli/100 mL of sample): 10,000 • Need for wastewater facility: Severe

22. ENTITY - EUREKA • Predominant Soils: Weinbach, Alford • Limitations for onsite system: Poor drainage; low permeable soils • Classification of absorption field Limitations: Slight to severe • Water quality of stream (E. Coli/100 mL of sample): 90,000 • Need for wastewater facility: Moderate

23. ENTITY – FRENCH ISLAND • Predominant Soils: Woodmere, Huntington • Limitations for onsite system: within 100 year floodplain; flooding is the main limiting factor; • Classification of absorption field Limitations: Slight to severe • Water quality of stream (E. Coli/100 mL): N/A • Need for wastewater facility: Severe

24. SOIL AND WATER QUALITY – cont. Source:1. Study: Dr. David Ralston, Soil Tech, Inc. 2. Publication: Custom Soil Resource Report for Spencer County, Indiana (USDA/Soil Conservation Service)

25. FINDINGS – LIMITATIONSTO SEPTIC SYSTEM Severe = 55% of LTRSD area (9735 acres) Primarily due to slow percolation, wetness, flooding, and slope (and other factors) Slight = 35% of LTRSD area (5382 acres) No reason provided Moderate = 9% of LTRSD area (1536 acres) Primarily due to slope Unknown= 1% of LTRSD area (171 acres)

26. ALTERNATIVE SYSTEM Facts, Figures & Pertinent Study 

27. FULDA SYSTEM • Eco-Treatment System, consists of: • Subsurface-flow constructed wetland • A vegetated re-circulating gravel filter, and • Soil absorption system (drip irrigation). • Serving 64 connections. • Peak design flow = 13,300 gallons per day. • Treats only “gray water” after solids • removal

28. FULDA SYSTEM, cont. • Cost summary: • Total project cost = $1,083,000 • Cost per connection = $19,000 (Mark • Harrison) • System performance: • Appears to be cost-effective in terms of • Operating and Maintenance • Meets pertinent groundwater regulations • (<10 mg/L total nitrogen)

29. FULDA SYSTEM, cont. • Permitted as land application project • Funds: • User fees, IDEM, COIT, CFF & SRF • Fulda did not apply for USDA/RD grant) • Estimated user fee = $63/month • General recommendations by residents: • Water sampling frequency can be reduced.

30. IS A FULDA-TYPE SYSTEM FEASIBLE? • YES or NO, because: • Fulda has 64 vs. LUCE’s 798 connections • Capital cost: $ 15.2 M (Fulda-Type) vs. • $12.4 M (Sewer) (using $19,000/connection) • Possibly more capital cost, but less Operating • and Maintenance • Cost for piping & septic system replacement • must be determined

31. IS A FULDA-TYPE SYSTEM APPLICABLE? Yes or No, because • Fulda system may not be cost-effective (in terms of capital cost) for LUCE • Obtaining COIT/RD grant not certain • Engineering/Non-engineering cost for proposed sewer system will be lost • Pumping of septic tank still will be necessary • Regulatory compliance must be obtained Therefore, further detailed analysis is necessary.

32. FULDA SYSTEM – ADVANTAGES • Existing septic tanks are being used • Meets sewer district’s goals (i.e., user fee) • Green technology - energy efficient • Cost-effective solution • Secondary benefits through drip irrigation

33. FULDA SYSTEM- DISADVANTAGES • Not a permanent solution for waste water • treatment • Potential to meet future growth is • uncertain • Performance is a function of temperature • and loading • Septic tank will still need pumping • Water quality sampling will be necessary

34. POTENTIAL SOLUTIONS • Many options can be identified to meet LUCE’s need but objectives cannot be a moving target and consensus must be built • 6-possible considerations: • Do nothing • Consider all 4-areas (Richland, Hatfield, Eureka & French Island) for sewerage • Consider all 4-areas (Richland, Hatfield, Eureka & French Island) for clustered Fulda-Type System

35. POTENTIAL SOLUTIONS, Cont. 4. Consider Richland, Hatfield and Eureka for sewerage; French Island -other treatment alternatives or do nothing 5. Consider Richland, Hatfield and Eurekafor clustered Fulda-Type System; French Island -other treatment alternatives or do nothing 6. Consider only Richland & Hatfield for sewerage; Eureka for other treatment alternatives; French Island for “do nothing”

36. CONSIDERATION No. 1 • Do Nothing.

37. CONSIDERATION NO. 2 • Permanent wastewater collection & treatment • Eliminates concern of septic back up; operating, maintenance, pumping & replacement of septic system. • Provides opportunity to meet future treatment need • Eliminates water quality concern, and provides all levels of wastewater treatment • Cost items: • Construction/non-construction cost; labor/materials • Administrative, general expenses (1998-2008) • Operating, maintenance & treatment (annual value)

38. COST & USER FEE ESTIMATES • Funding sources: • USDA/RD grant and loan; • Tap-in fees ($1000/connection) • COIT grant (annual payment of $150,000 for 22 years) • Others: • Interest rate = 4.5%, payment period = 40 yrs • Number of users = 798

39. SUMMARY - COST ESTIMATES

40. USER FEE ($78/Connection)

41. DESIRED USER FEE ($64/Connection)

42. SUMMARY • Consideration No. 2 (sewerage for all areas) • Based on 2008 total project cost, expenses and funding sources => User fee = 78/Connection • To obtain desired user fee = $64/Connection • Additional grant of $5.6 M must be obtained • Cost of $1.5 M to Rockport Wastewater Treatment Plant could be renegotiated • A Wastewater Treatment Plant can be built in LUCE to minimize cost of sewer line, but it does not appear to be cost-effective

43. SUMMARY, cont. • Consideration No. 3 (Fulda-system for all areas) • Based on $19,000/connection, capital cost = $15.2 M (about the same as sewerage) • Location for Eco-treatment wetland construction must be identified; sewer line length must be determined; regulatory agencies must be consulted • To obtain user fee: total project cost, amount and sources of loans, grants, and tap-in fees must be quantified • Detailed engineering and economic analysis is necessary

44. SUMMARY, cont. • Consideration No. 4, 5 & 6 • Wastewater treatment objectives must be identified • Consensus must built among decision makers • Detailed engineering and economic analysis is necessary (more cost to LTRSD)

45. RECOMMENDATIONS 1. Identify and build consensus on wastewater management goals & options (select your Consideration No.) 2. For Consideration 2 (sanitary sewerage for all areas): • Negotiate to reduce $1.5 cost to a lower amount to obtain a more desirable user fee, • Obtain more grant money (obtaining more loans will not reduce user fee, unless the loans are at lower than 4.5% interest rate) • Identify a location in LUCE for WWTP construction

46. RECOMMENDATIONS, cont. 3. For Consideration 3 (Fulda-type system for all areas): • Consult with regulatory agencies to ensure permitting will be allowed. • Identify locations for Eco-treatment wetland (BernardinLochmueller & Commonwealth could possibly assist in this regard). • Detailed analysis will be necessary to determine feasibility. • Remember: The only permanent solution to wastewater management is to build Sanitary Sewerage System – which is the best solution available today.

47. Questions? Next Steps

48. Community Process • Travel to the Commons Area and sit at a table with a flipchart. • Pick a scribe from your table (someone who will capture comments on the flipchart).

49. Questions to Process • To what extent do you think Luce Township needs sanitary sewers to survive and thrive into the future? Explain. • What are the challenges residents at your table face with signing on to the easement. Select the two most important to share back. • What, if any, additional information would help us move forward?

50. Shareback • 1 person from each group come forward. • Bring your table’s flipchart sheets. • Share the comments from your table. • Post on the wall.