Eco Sustainable Village
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Eco Sustainable Village |
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A "SELF SCREENING"ASSESSMENT METHOD: DETERMINING THE APPROPRIATENESS OF A MANURE DIGESTION SYSTEM ON AN ANIMAL PRODUCTION FACILITY
INTRODUCTION At the request of AURI, an approach has been developed with the intent of providing animal producers tools to "self-screen" or self-assess the potential viability of installing manure digestion system systems. Producers interested in exploring the option of installing a digestion system will be able to: 1. Learn how a system would benefit the facility, 2. Gauge the ranges of system installation and operating costs, 3. Identify equipment and materials currently on the farm which will be usable, 4. Assess, through a simple weighted checklist, the likelihood of successfully installing a system. CAVEATE Information herein is meant to highlight critical issues associated with installing a successful manure digestion system. It is specifically and explicitly not intended to be a tool to formulate final decisions of whether installation of a system is advisable. A final decision on system installation should be made only after consultation with professionals experienced with animal manure digestion. DESCRIPTION OF A SUCCESSFUL DIGESTION SYSTEM An anaerobic digester is a completely closed (oxygen free) system that receives and biologically treats manure with naturally occurring organism. A successful system is easy to operate, is cost effective and characterized by consistent and significant: reduction in total solids, production of methane rich biogas, and effluent with less odor, pathogenic organisms and weed seeds than was present in the incoming waste. In a successful system no additives or additional organisms are required. Anaerobic digestion systems may have biogas capture and utilization for production of power and/or heat. The system may have solids recovery. DIGESTION SYSTEM BENEFITS Digestion systems offer potential economic and non-economic benefits. Actual benefits will vary from farm to farm. Whereas properly designed anaerobic lagoons may provide similar results; a heated 2005 NOTE: though the premises remain, circumstances have changed in 5 years since ENVIRONOMICS was contracted by AURI to do this work. Most notably, construction-equipment-engineering fee increases have nearly doubled capital costs. Sales of environmental attributes are now reality. Please adjust this document use accordingly.RPM 1/29/05 digester is remarkably smaller and will permit treatment year around with predictable recovery of usable products. Digesters are often a better investment than a lagoon over the long term life of the structure. Economic Digestion systems may both directly and indirectly enhance revenues of the production facility. 1) Direct Economic Benefits Several ways a digestion system may directly impact the facility are:
2) Indirect Economic Benefits The greatest potential indirect economic benefit is the reduction in risk of the facility being subject to legal action and forced outright closure. Digestion systems, properly designed and operated, significantly reduce the odors associated with manure management. Even if electricity or hot water are not directly sold:
Non-Economic Staff as well as neighbors would prefer to not deal with odors associated with manure management. In digestion, compounds, which usually produce odors, are greatly reduced. Pathogenic organism are greatly reduced, most more than 90%, many more than 95%, a few only 50% or more (note: they are not to be considered eliminated). COSTS ASSOCIATED WITH DIGESTION SYSTEM INSTALLATION The obvious questions asked when considering digestion systems are:
System Capital Cost Ranges Prices vary with system design and components, location, contractors and suppliers. This table provides approximate costs for a relatively simple effective system style currently employed successfully in a variety of locations in the US. There are more exotic approaches, with correspondingly higher initial capital outlays.
+These estimates do not include solids separation, increase value by $35,000-$45,000 if solids separation is to be included System Operating and Maintenance Costs Digestion systems with cogeneration will cost about $0.015/kWh generated to operate. This includes all engine generator and digester daily and intermediate expenses. This is about 5% of the initial capital costs. Digestion systems without cogeneration will require minimum daily attention, and about the equivalent 5% of the initial capital cost in short and long term maintenance. If solids separation is to be part of the system, operation and maintenance will cost between $0.50 and $1.50 per cubic yard of solids recovered. If solids separation is not to be included, the producer will have to consider the cost of lagoon cleaning. Fitting the Digestion System into the Existing Facility The least cost approach to digestion system installation is to use existing equipment to the largest extent possible. Under nearly all circumstances, existing equipment may be used and the costs cited above reduced. Production facilities may have existing manure pits, pumps, separators, and buildings. Cost of constructions will be lower in those cases. One notable exception is that existing standby power gensets may not be used. Biogas collected in the digester may be piped to an engine attached to a generator. This engine will have to be purchased, as standby generators are almost all not continuous duty nor built for this type medium Btu gas. Engine and generator controls will have to be special ordered. Mixing digestion system produced electricity into the farm system is as simple as connecting to the main switch buss bar. Mixing digestion system produced hot water from the engine into the farm system will be as simple as installing heat exchangers. DOES A DIGESTION SYSTEM MAKE SENSE? -A "SELF SCREENING" CHECKLIST Digestion systems are not for everyone. A checklist is provided to assist in assessing whether installation of a digestion system on a facility has a reasonable chance of success. Only those issues most likely to impact system success have been included. This is an empirical approach based on opinions formulated after observing many digesters and situations. There are key first issues, which are critical to system success. Inadequacies in these areas will almost certainly result in an unsuccessful system. Differing circumstances impact whether a digestion system is appropriate. An approach is offered which will "weight" conditions to balance the differences that may exist from facility to facility. The producer should use the given weighted values as guidelines. The interpretation at the bottom of the sheet is a "first cut". The producer and consultants are the best interpreters of the results. FINAL WORD OF CAUTION Having assessed the likelihood of success, actual success is contingent, among many, on the quality of digestion system design. Select only those designers able to demonstrate a track record working with the type of waste at the facility in question and at the scale anticipated at the facility. FURTHER INFORMATION Further information may be obtained through the EPA-USDA-DOE AgSTAR program by calling 1.800.AgSTAR95. Checklist to Evaluate the Likelihood of Heated Manure Digestion System Success
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