Iwa international Specialist Conference
AGRICULTURAL USE OF SEWAGE SLUDGE - A CONTROVERSIAL ISSUE
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- Bu səhifədəki naviqasiya:
- CONTRA
- Such recycling of water leads logically to the use and recycling of water constituents.
- 3. Secondary raw materials become more and more valuable, also in water technology.
- 4. Conclusions
- The economical challenges towards sustainable sludge management
23AGRICULTURAL USE OF SEWAGE SLUDGE - A CONTROVERSIAL ISSUEH.H.Hahn
University of Karlsruhe Karlsruhe/Germany 1. Preliminary Remarks Agriculture has since long fulfilled the role of production on one hand and protection on the other, of innovation on one side and conservation on the other. Agriculture as the oldest activity of settled mankind is in many respects also one of its most noble. Using residuals from the treatment of spent waters, formerly referred to as sewage sludge and more recently re-named ´biosolids´ for the fertilization and structural improvement of agricultural land also has had a considerable tradition. Very early wastewater collection occurred in many areas with the aim to use this water for agricultural irrigation with the added benefit of using also its constituents. As collected wastewater was not only used for irrigation but re-introduced into the aqueous environment and therefore treated, it was logical to make use of the material separated from the wastewater stream in the course of its treatment. As the amount of water used by household and industry increased and the intensity of agricultural production called for mechanization and intensive fertilization the formerly symbiotic cooperation of farmer and biosolids producer became more and more obsolete and agricultural sewage sludge utilization was transformed into a convenient type of disposal. – In addition the quality of some sewage sludge changed due to the growing complexity of raw materials, production emissions and household goods that all ended up in those residuals from all anthropogenic activities of settled areas, for in some sense sewage sludge is also a mirror of all of man’s present and former activities. It is understandable that agriculture in its role of protecting on one hand its products and on the other its resources with which produce is generated hesitates to cooperate in a purely disposal oriented scheme. And it is well advised to shy back from the use of all those residuals that producing and consuming mankind rids itself off. This reflects the present very heated and unfortunately also very emotional discussion of the benefits and disadvantages of agricultural use of biosolids in Germany. The following remarks are a summary of some of these discussions, trying to maintain a position as objective as possible. The discussion follows the pro and contra arguments listed in the following table 1. 2. Non-discriminating use of all types of secondary raw materials can create risks, also in agriculture. In our industrial production as well as in our consumptive behavior we have learned to think in cycles as nature has taught us. Yet, after establishing such cycles, for instance in industrial production schemes it became apparent that there must be provisions for getting rid off of unwanted or dangerous material from such closed loops if the inherent accumulation and product impairment is to be stopped. Past and present experiences with various types of material and energy cycles can be summarized into guidelines for a reasonable use of secondary materials as follows:
Table 1: Arguments for and against agricultural use of biosolids. We have learned that agricultural use of biosolids can be a very expedient method of cost minimal disposal. However, this is the wrong type of argument: Agricultural use of biosolids should not at all be motivated by arguments of cost minimization and convenience maximization. If we would summarize the past and present experience it would read as follows:
In some instances of sewage sludge utilization on agricultural areas in the past we have imported non-degradable and unwanted or even dangerous material into these soils. This has caused specific damages. – To be fair, this has not occurred in a scale that would be alarming. But it has occurred either for reasons of carelessness or for the simple reason of seeking short-term benefits. And it is this type of black-sheep behavior of indiscriminant disposal that has led to the development of a very tight network of regulations and supervision. From this we have learned the following:
3. Secondary raw materials become more and more valuable, also in water technology. Very early it was shown even in regions with relative abundance of water that agricultural use of spent waters was necessary. This recycling of water logically led to the use and recycling of water constituents that were removed in the course of pretreatment of irrigation waters as well. Until very recently statistics on the agricultural use of biosolids in European countries (as for instance published by the European Water Association) show a widespread use of these resources and therefore also a broad basis of experience. This positive as well as negative experience can be summarized as follows:
It has been mentioned that biosolids are valuable (secondary) fertilizer materials in addition to their contribution to structural improvement of soil matrices. In general we observe today that there are more and more positive examples of the reasonable use of secondary raw materials. And such use of raw materials becomes more and more beneficial in those instances where the store of primary raw materials begins to be exhausted as well as in those instances where the mining, producing and providing of such materials is transport- and energy-intensive. Phosphorous, one of the main fertilizing components of biosolids, as such a raw material which begins to be exhausted in some of its natural sites. This has led to the development of recycling concepts.
One of the only “indirect” yet most significant advantages of agricultural use of sewage sludge is to limit type and amount of materials that are transported directly or indirectly by (waste)water in order to maintain the option of agricultural use of the residuals of water treatment. It has been indicated before that there were cases of inadvertently harming agricultural soils by applying pollutant carrying sewage sludge. These historical (and rather rare) incidences have led to careful analyses on sources of such pollutants and the control of these sources, besides intensive affords to repair the stated damage. We have learned that these sources can be found with an acceptable effort and we have also managed to control them to the degree needed. Thus, aiming for a potential use of biosolids from wastewater treatment in agriculture is also a beneficial imperative for the overall sewage collection and treatment concept:
4. Conclusions One must not be very prophetic to predict a significant re-evaluation and re-orientation in the longstanding tradition of agricultural use of residuals from wastewater treatment. And it will be most likely that the total amount of sludge being utilized in this way will become smaller than it is now. There are two aspects of such agricultural use of biosolids that make it worthwhile to try to maintain this option. First of all such use of secondary raw materials will remind us that there are other input streams as well as output and that we must attempt to obtain an ever more complete picture of all these mass movements in the interest of our own health. And second, quantifying the requirements for good quality biosolids will provide a sound basis for the operation of our inherited disposal concepts using the well-developed infrastructure of central sewerage. 24
Dr Tim Evans, Tim Evans environment, Stonecroft, Park Lane, Ashtead, Surrey, KT21 1EU, England tel/fax +44 (0) 1 372 272 172 email: tim.evans@messages.co.uk Yüklə 0,66 Mb. Dostları ilə paylaş:
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