Toxic Substances in Anaerobic Digestion



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Chapter 5 Toxic Substances in Anaerobic Digestion Toxicity in AD A variety of inorganic and organic wastes can cause toxicity in anaerobic digesters. Many toxic wastes are removed in primary clarifiers and transferred directly to the anaerobic digester. Heavy metals may be precipitated as hydroxides. Organic compounds such as oils are removed in scum and chloroform in sludge. Industrial wastewaters often contain wastes that are toxic to anaerobic digesters. 1

Toxicity in AD Toxic substances causing inibition on AD may be; Components of the influent waste stream or By-products of the anaerobic microorganims Although ranges of values exist at which toxicity occurs for specific organic and inorganic compounds, anaerobic bacteria and methanogens often can tolerate higher values by acclimating to toxic substances. Toxicity threshold Toxicity threshold of a substance is determined by several factors including; The ability of the bacteria to adapt to a constant concentration of the toxic substance, Absence or presence of other toxic wastes, and Changes in operational conditions. 2

Acute and chronic toxicity Toxicity in AD may be acute or chronic. Acute toxicity results from the rapid exposure of an unacclimated population of bacteria to a relatively high concentration of a toxic waste. Chronic toxicity results from the gradual and relatively long exposure of an unacclimated population of bacteria to a toxic waste. Chronic toxicity Under chronic toxicity anaerobic bacteria & methanogens may acclimate by two means; They may repair damaged enzyme systems in order to adjust to the toxic wastes or degrade the toxic organic compound. They may grow a relatively large population that is capable of developing the enzyme systems necessary to degrade the toxic organic compounds. 3

Toxic substances in AD Volatile Fatty Acids Sulfides Ammonia Heavy metals Alkaline metals (Ca 2+, Mg 2+, K + and Na + ) Cyanide Anthropogenic & recalcitrant compounds Toxic substances in AD 4

Measures to control toxicity in AD Remove toxic substances from the feed Dilute the feed to bring levels below toxic threshold value Add chemicals to form a non-toxic complex or insoluble precipitate Add an antagonistic substance. VFA toxicity High concentrations of VFA are often associated with the effects of toxicity and inhibition. It is generally believed that VFA inhibition is due to their accumulation and a consequent reduction in ph value. However, several experiments have shown that the VFA are themselves toxic. 5

VFA toxicity Depending on ph, VFA concentrations can be tolerated with a minimal degree of toxicity. However, at low ph values much more of the VFAs exists in the undissociated form which is much more toxic than ion form, due to its greater membrane permeability. In a well-operating digester running with lightly loaded feed, VFA concentration is typically less than 100 mg/l. VFAs in AD VFAs generally present in AD process 6

Sulfide toxicity Bacterial cells need soluble sulfur as a growth nutrient and satisfy this need by using soluble sulfide (HS - ). However, excessive concentrations of sulfides or dissolved hydrogen sulfide (H 2 S) gas cause toxicity. Methanogens are the microorganisms that are most susceptible to H 2 S toxicity in ADs. Hydrogenotrophic methanogens are more resistant to H 2 S than acetoclastic methanogens. Sulfide toxicity Soluble H 2 S toxicity occurs because sulfide inhibits the metabolic activity of anaerobic bacteria. Although the H 2 S inhibition mechanism is not completely understood, toxicity can occur at 200 mg/l at neutral ph. Because diffusion through a cell membrane is required to exert toxicity and non-ionized H 2 S diffuses more rapidly across a cell membrane than sulfide, H 2 S toxicity is ph dependent. 7

Sulfide Inhibition Mechanism FeS Intracellular ph HS - H + HS - If in AD ph H 2 S H 2 S HS - + H + Hydrogen sulfide (H 2 S) inhibition mechanism H 2 S formation in ADs H 2 S is formed in ADs from the reduction of sulfate and the degradation of organic compounds such as sulfurcontaining amino acids and proteins. The sulfur in some of the amino acids is released during the hydrolysis. Sulfate is relatively non-inhibitory to methanogens. Sulfate is reduced to H 2 S by SRB. For each gr of COD degraded by SRB 1.5 gr of sulfate are reduced to H 2 S. 8

To control H 2 S inhibition Free H 2 S gas can be stripped from digester sludge by the rapid production of CO 2, H 2 and CH 4. Treatment measures include; Diluting the sulfides Increasing the ph to convert H 2 S to less toxic HS - Separating and treating the sulfate/sulfide waste stream Precipitating the sulfide as a metal salt (FeS), and Scrubbing and recirculating digester biogas. Ammonia toxicity Ammonium (NH + 4 ), a reduced form of nitrogen may enter to an AD via influent or may be produced during hydrolysis of amino acids and proteins. Reduced nitogen exits in two forms, the ammonium ion (NH + 4 ) and free or unionized ammonia (NH 3 ). NH + 4 are used by anaerobic bacteria as a nutrient source for nitrogen & also provide a buffering capacity. NH 3 is toxic especially to methanogens. 9

Forms of Ammonia NH 3 + H 2 O NH 4+ + OH - Free (unionized) ammonia Ammonium ion FA = 1 + 10 TN (pk a - ph) 2729.92 pk a = 0.09018 + T + 273.15 TN FA : Total N, mg/l : Free NH 3 -N, mg/l pka : Dissociation constant for NH 4+ (8.95 at 35 o C) T : Temperature, o C Ammonia Inhibition Mechanism K + H + NH 4 + H + NH 3 If in AD ph NH 3 NH 4+ + OH - CH 4 CO 2 H 2 Mg +2 Ca +2 Model illustrating two different interactions of ammonia with methanogens 10

Effect of Ammonia on AD Total Ammonia-N 50 200mg/l 200 1000mg/l 1500 3000mg/l Effect Beneficial No adverse effect Inhibitory at ph > 7 Ammonia toxicity is self-correcting. Methanogens are inhibited by free ammonia VFA concentration increases Then ph of the digester drops. The drop in ph converts FA to ammonium ions. Metal toxicity A trace level of many metal ions is required for the function of certain enzymes and coenzymes. However, excessive amounts may result in toxicity or inhibition. Heavy metal toxicity is believed to occur through the structural disruption of enzymes and protein molecules within the cell. 11

Metal toxicity Numerous heavy metals such as cobalt (Co), copper (Cu), iron (Fe), nickel (Ni), and zinc (Zn) are found in wastewaters and sludges and are transferred to ADs. High concentrations of metals in sludges affect sludge disposal options and costs. Heavy Metals Toxicity Metals are adsorbed to the surface of negatively charged, bacterial fibrils that extend into bulk solution from cell membrane through cell wall. Fibrils are negatively charged by the ionization from key functional groups such as - COOH and hydroxyl -OH. Once adsorbed, metals are absorbed by bacterial cells. Inside the cells metals attack enzyme systems. 12

Heavy Metals Toxicity Heavy metal concentrations (mg/l) that cause a 50% reduction in biogas production rate Alkali & Alkaline-earth Metals Toxicity Alkali and alkaline earth metals (sodium, potassium, magnesium, and calcium) are stimulatory to anaerobic bacteria unless present at excessive concentrations. The toxicity of salts of these metals is associated with the cation rather than anion. Acclimatization of digester with cations can often increase the toxicity threshold. 13

Alkali & Alkaline-earth Metals Toxicity Inhibitory concentrations of alkali and alkaline earth cations Cyanide toxicity Cyanide (-CN) and cyanide-containing compounds are commonly found in wastewaters from metal cleaning and electroplating industries. In metal finishing industry they are used in plating baths. Cyanide & cyano-compounds are toxic to methanogens. Toxicity occurs at cyanide concentrations >100 mg/l. 14

Cyanide toxicity Cyanide prevents methane production from acetate, but it may not prevent methane production from H 2 + CO 2. Cyanide toxicity is reversible. The reversibility of toxicity is dependent on; Concentration of cyanide and its time in the digester Amounts of solids (bacteria) in digester Solids retention time (SRT), and Temperature. Toxicity of Anthropogenic & Recalcitrant Compounds Chlorinated Hydrocarbons Benzene Ring Compounds: Benzene Pentachlorophenol Phenol and phenolic compounds (chlorophenols, nitrophenols and tannins) Toluene. Formaldehyde (H 2 CO) 15

Recalcitrant Compounds Difficult to degrade or recalcitrant compounds in anaerobic digesters may cause toxicity to methanogens. Examples of these compounds include aliphatic hydrocarbons and some chlorinated compounds such as lignin, humic substances, and chlorinated biphenyls. The recalcitrant compounds become even more difficult to degrade when they contain alkyl groups, halogens, nitro groups, and sulfo groups. 16

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