Water And Wastewater Analysis Focusing On Formaldehyde Environmental Sciences Essay

Water And Waste weewee Analysis Focvictimization On formaldehyde environmental Sciences EssayFormaldehyde (FA) has been widely employ in wood, paper and textile industries as well as in the harvest-tideion of a number of chemicals and for the rescue of biological material. It besides present in almost all common foods and its estimated that adult dietary intake is 11 mg/day. Occasionally, it is employ as a disinfectant to disinfect piss filters. (ADWG, 2004)FA fuck be toxic allergenic and carcinogenic to human beings (Lyon, 2006). Several epidemiological studies of occupational exposure to do workaldehyde run through indicated an increased jeopardy of nasopharyngeal stopcers, leukemia and eye irritations (OSHA, 2008). The International Agency for Research on Cancer has concluded that FA is probably carcinogenic to humans (IARC 1987).FA may be present in piss through industrial effluents, ozonation of naturally go acrossring humic materials, contamination by accidental s pills and overflows as well as bank deposit from the automatic teller machine (ADWG, 2004). A study showed that the FA concentrations in rainwater be expected to be up to three orders of magnitude higher than in surface water, which indicated that atmospheric deposition is a signifi micklet source of FA in aquatic systems (Kieber et al., 1999).Generally, the concentration of formaldehyde in water is very low which has a low environmental risk to human and organisms. However, when accidental spills or overflows happened, chemical analyses and monitoring programs atomic number 18 necessary.1.1 Formaldehyde in drinking waterFA enters in drinking-water mainly from the oxidation of natural innate matters such as humic materials during ozonation (Glaze et al., 1989) and chlorination (Becher et al., 1992). Leaching from polyacetal plastic fittings in which the protective coating has been broken can sometimes be one of the resources of FA in drinking-water (IPCS, 2002). fit in to Aust ralian guideline value, the concentration of formaldehyde in drinking water should not exceed 0.5 mg/L (ADWG, 2004).1.2 Formaldehyde in effluentFA has been use in many industrial activities as a key chemical. In organic synthesis industry, the synthesis of special chemicals such as pentaerythritol and ethylene glycol used FA as one of the agents. In addition, FA is essential in production of resins, textiles, paper products, medicinal products and drugs (Khiaria et al., 2002). Therefore, effluents arising from these industrial applications may contain significant amounts of FA which is needed to be determined and treated.1.3 Chemical synopsis of formaldehyde in water and wastewaterSince the concentration of formaldehyde in water can be from time to time high which may be potential risk to human health, we should conduct some methods to measure the accurate concentration of it. The chemical analysis of formaldehyde can provide meaningful information on the property of water there fore actions can be taken immediately to ensure that water suppliers provide consumers with water that is safe to use and meet the public recreational and aesthetic requirements if changes occurred.Advice on sample prayerIn sample appealingness, the sampling site, time and weather conditions are needed to be considered to obtain a volume of water which can be the representative of the water body. Before it is analyzed in science laboratoryoratory, we should try to bear on it in such a manner during store and transport processes, sometimes preservatives can be added in order to minimize any changes that may occur (Private Water Supplies website).The essential steps in sampling program are shown below (From unit 5, lecture notes).Problem DefinitionFormaldehyde Sampling computer program DesignSample PreparationChemical AnalysesField SamplingReportingData Analysis2.1 Sample containersFormaldehyde belongs to volatile organic compound, therefore, its recommended to use 40mL brownis h glass vial or transparent glass vial with aluminum foil covered outside as the sample container to prevent it from releasing to get off or deteriorating after exposing to light. The cap must have teflon-lined septum. The polypropylene screw caps should be used instead of typical phenolic resin caps due to the accident of sample contamination from FA (US EPA 1998). In addition, when taking samples, we should use pre-cleaned bottles that are free from volatile organics (Standard operating procedures for water sampling methods and analysis, WA, 2009).2.2 Sample collectionSample collection is very important in determining the safety of water, so its essential to ensure that the samples are representative, reliable and full validated. For complicated and rocky water quality such us wastewater effluent, sample collection should also cover the random and regular variations in water quality as well as the fixed conditions.2.2.1 Types of SamplingThe types of sampling include see sampl ing, composite sampling, flow-related sampling, automatic sampling and continuous monitoring. Each method has its own characteristics and suitable for diametrical water body and sampling purpose.For drinking water, we use grab sampling method. For grab sampling, all of the test material is collected at one time. So the grab sample can only reflect the water quality state at a particular site and time, and then only the sample was right on collected can it represent the water body we concerned (Norwalk Wastewater Equipment Company website). Grab sampling has some advantages. For example, some specific type of unstable parameters such as VOCs, chlorine residual and nitrites in water treatment plant can be effectively analyzed. Sometimes, grab sampling can also be conducted for pH, temperature and DO monitoring (NWEC website). For drinking water, the water was well mixed, stable and generally free of contamination. Therefore, grab samples can already be good representations of the wa ter quality. In addition, this method is very common, easy and low capital live.For wastewater, we use composite sampling method. Composite sampling is another sample collection proficiency which consists of many individual discrete samples that have been taken at regular intervals over a period of time. Therefore, the collected samples can reflect the average mathematical process of water quality during the collection period (NWEC website). Wastewater treatment plants receive unfixed and variable amounts of sudden increased waste flows from industries and households during a day followed by intermittent periods of no flow (NWEC website). Analyzing a single grab sample of effluent at a fixed time and site can defy some bias and cannot reflect the real varying flow patterns in effluent outlets. Therefore, composite sampling method is much plausible for evaluating the holistic surgical process and state of wastewater quality.2.2.2 Sampling sitesDrinking water samplingFor drinkin g water sampling, we can either take a sample from a customers tap, or storage tank or some representative places.From a tapChoose a tap which is most frequently used.Any external fittings such as filters and contaminants such as grease and sediment build-up around the spout should be removed prior to exam.Since tap outlets are suspected to be contaminated, disinfection should be conducted by swabbing both outside and inside of the tap several minutes before sample collection. The disinfection reagent can be 0.1% sodium hypochlorite solution (Forensic and scientific Services, Queensland Government 2008).To get a representative fresh water sample, the tap should be run for a while (about 2-3 minutes) to remove the stagnant water in the tube.From a storage tankFor shallow depth (Small water supply tank),To get a representative sample of the source of supply, the sampling depth is recommended to be 0.5m.The bottle inside and the cap inside should not be touched.The neck should be plun ged downwards into the water and then turned upwards until the water is overfilled and rim is towards upside (FSS, QLD Government 2008)For deep depth (Large water supply dam),To get a representative sample, the water sample should be collected by utilise a suitable depth sampling device such as hosepipe, sampling rod or pump etc.Be careful not to disturb bottom sediment.Wastewater samplingFor wastewater sampling, we should take the samples from outlets of wastewater treatment plant. Since we use composite sampling method for wastewater analysis, we should pour follow portions of freshly collected samples into the appropriate container.2.2.3 Collection instructionsAccording to surface water sampling methods and analysis technical appendices in Western Australia in 2009, the recommended collection techniques are listed as followsThe containers for holding samples should not be pre-rinsed.It is recommend that the bottles should be used to collect sample directly rather than decanti ng. However, in some cases, decanting samples from epic collection vessels into sample vials are acceptable provided that all the containers are free of contamination. For example, sometimes a clean bucket with about 10L capacity or a large 1L breaker can be used to collect the surface sample and then transfer to the laboratory sample container.To minimize the exposure to halo and light, samples should be overfilled containers and then the cap should be tightly sealed free of air bubbles and faced down to help prevent leakage.2.2.4 Complete lab form and sample tryAfter sample collection, we should complete the lab form which contains the sampling information such as water volume, sampling sites, etc and stick label on each sample container which recorded sampling location and time.2.3 PreservationFiltrationFor wastewater samples, the filtration treatment should be conducted since some suspended particulates may block the testing instruments.PreservationSome experiments indicated that aldehydes are susceptible to microbiological decay.To inhibit microbial decomposition of organic compounds, it is recommended to add 0.1 ml of CHCl3 (Economou et al., 2002) or alternating(a)ly, 15 mg of copper sulphate pentahydrate in water samples (US EPA 1998).2.4 Sample transportation and storageTransportationDuring transportation process, we should minimize the contamination and disturbance to water samples, conserve them in the dark and maintain in cool condition with a chilled insulated container and then return to the lab as quick as possible (Environmental health guide, WA, 2006).StorageBefore the lab analysis, the samples are recommended to be refrigerated still not freezed at 1-4C in the dark.Available techniques for sample bloodline3.1 Available techniquesSample inception is used to concentrate the analyte for its sure-fire analysis by instruments. There are various methods for FA declination. Each method has its own characteristics. The object is to choose an optimal technique to repeal overabundanceive loss of the analyte and achieve desired movement.Soxhlet extraction and solvent extraction are traditionally common extraction techniques, particularly for organic compounds. However, since their limitations such as the need of a large volume of solvent, lack of thermal stability and volatility of some analytes and arbitratence from contaminants in the extraction thimbles (Grob et al., 2004), they may not coveted for FA extraction. According to recent studies and researches, some extraction techniques have already achieved good results. They are listed as follows.Solid-phase extraction (SPE)SPE is a technique including two extraction steps. The prototypal step is the non-equilibrium removal of the analytes from the liquid sample by retention on a sorbent. The second step is the solvent elution or thermally desorption of the selected analytes (Grob et al., 2004). unity successful approach for determining formaldehyde in drinking wat er has been to use colorimetric-solid phase extraction with EmporeTM Anion Exchange-SR 47-mm extraction membranes as extraction cartridges and elution from the SPE cartridge by sodium hydroxide solvent (Hill et al., 2009). Another successful approach for formaldehyde analysis in water was by using poly (allylamine) beads for solid-phase extraction and eluting from the C18 cartridge by hydrochloric acid (HCl) solvent (Kiba et al., 1999).SPE is one of the most widely used techniques in FA analysis. Due to its high sensitivity and efficiency, it can determine the low FA concentrations down to 80 ppb by several minutes (Hill et al., 2009). However, one of the drawbacks of it was its e high packing and sorbent selection requirements which might be costly and time-consuming in choke up preparation. Another problem is SPE may have analyte loss during elution when analyte passing though tube.Ultrasonic extraction (USE)USE is a fast technique using ultrasound assisted method to assure goo d contact between sample and solvent (Grob et al., 2004). One of the researches has stated the successful use of USE in FA extraction. Formaldehyde was first extracted with water by ultrasound assisted, and directly introduced into a derivatization column which was packed with a moderately sulfonated cation-exchange resin. The resin was charged with 2, 4-dinitrophenylhydrazine (DNPH) previously and used as solid support. The formaldehyde DNPH derivative was eluted by sodium dihydrogen phosphate in 50% ACN solvent (Chen et al., 2008).Compared with traditional techniques, this method was proved to be fast, accurate, sensitive and labour-saving. In addition, only small quantities of solvent and sample were required. Therefore, its a promising extraction method (Chen et al., 2008). However, the drawback of this method was its low recovery efficiency. For low concentrations of analytes in samples, multiple extractions are often required (Grob et al., 2004).Supercritical fluid extraction (SFE)SFE is a fast and efficient technique. Analytes are more soluble in supercritical fluids (SFs), which are dull gases above their critical temperature and pressure, when they are in their liquid state. Therefore, the important properties such as the melting point and solubility of analytes in the SF are needed to be considered (Grob et al., 2004).A study has stated the SFE in FA analysis using CO2 as the extraction fluid, and the experiment was carried out at 13.8 MPa, 120C with 15 min of static extraction time, 15 min of dynamic extraction time and 80 l of modifier (methanol). The DADHL derivative which was the product of the condensed FA with ammonia and acetylacetone can be detected by UV spectrometer (Reche et al., 2000).However, one of the drawbacks of SFE in FA analysis was the use of supercritical CO2 fluid. Since the low polarity of CO2 but the polarity of FA, the extraction was difficult and recoveries are poor.Solid-phase microextraction (SPME)SPME is a good extractio n method which can incorporate with GC or HPLC to get the high performance in sample analysis. It used a case coat with an extracting phase which can concentrate the analytes and then the reference is transferred to the injection port of separating instruments and analytes are desorbed from the fiber and rapidly delivered to the column (Pawliszyn, 2009).One of the researches has stated the SPME experiment for FA analysis. Prior to use, the 75 m Carboxen-Polydimethylsiloxane fiber was conditioned in the injection port of GC at 300C under helium flow for 1.5 h. therefore the extraction was carried out at 80C for 30 min using the fiber with a medium stirring of sample. Next, the thermal desorption was reacted in a splitless mode at a temperature of 310C for 3 min (Bianchi et al., 2007).SPME technique has some advantages in FA. SPME is a simple, easily-conducted and solvent-free technique. The detection limits can reach parts per trillion which is really useful in FA analysis since t he concentration of FA is water is very low. In addition, SPME is fast and low cost which can minimize sample holding times, reduce analyte loss and sample contamination (Trenholm et al., 2008). However, one of the problems is SPME may have analytes loss during extraction that nearly 1% of analytes goes on fiber (Leap technologies website).Stir bar sorptive extraction (SBSE)The theory of SBSE is similar to SPME which used a spinning glass-covered magnetic bar coated with a thick layer of polydimethylsiloxane to extract analytes, then thermal desorption can be carried out in the GC injection port (Grob et al., 2004). SBSE has been applied successfully to trace analysis especially VOCs and semi-volatile compounds in environmental, biomedical and food applications. The detection limits can be extremely low which are suitable for FA analysis in water (David et al., 2003).Theres limited information of FA analysis relating to SBSE technique, however, its still a promising method in the fu ture.Newer techniquesNewer techniques such as pressurized liquid extraction (PLE), subcritical water extraction (SWE) and microwave-assisted solvent extraction (MWE) are enhanced liquid extraction techniques. Compared with traditional soxhlet extraction and solvent extraction, these methods are less time-consuming, less solvent consumption and more efficient and can be exerted to low concentrations of analytes in samples.3.2 Water and wastewater sample extractionFor drinking water formaldehyde analysis, we can use solid-phase extraction (SPE) which is commonly used, easy-operated and available in laboratory.For wastewater formaldehyde analysis, we should remove particulates by filtration prior to extraction because particulate matter in the sample can interfere with the analysis such as absorbing some analytes of interest and causing low analytical recoveries. And then we can use SPE, USE, SPME or other advanced techniques for sample extraction.Current techniques for sample analysi sSpectrophotometric methodsThe theory of spectrophotometer is to measure the intensity and amount of light which have been absorbed or reflected by the analytes as scat of colour or wavelength (Skoog et al., 2007).4.1.1 Reflectance spectrophotometerOne of the studies has developed a method that successfully monitored the FA concentrations in water samples using purpald as the colorimetric reagent (Hill et al., 2009). Firstly, a colourless intermediate was formed by purpald reacting with FA in alkaline solution. And then an intensely purple tetrazine was formed due to the oxidization of intermediate. The purple tetrazine was served as the colorimetric product (Dickinson et al., 1974).After completing the colour reaction in the syringe, the 1mL sample is passed through an extraction disk. The amount of extracted analyte is then measured on-disk using a BYK-Gardner diffuse reflectance spectroscopy. The reflectance data can be collected at 20nm intervals over the visible spectral rang e. After that, the BYK-Gardner QC-Link software in PC is used to aspire the Kubelka-Munk function F(R). Then the analyte was compared to a calibration plot of F(R) at 700nm which was the most effective analytical wavelength to determine the FA concentration (Hill et al., 2009).This method successfully analyzed the FA concentrations at the range of 0.08 to 20ppm using only 1mL samples and just costing several minutes.4.1.2 UV/Visible spectrophotometerUV/Visible spectrophotometer can be used to measure the absorbance which is the expiration of intensity of light before and after passing through a sample by an object as function of wavelength or color (Skoog et al., 2007).One of the studies for FA determination used Hantzsch Reaction for derivatives. The colourless solution became yellow colour gradually owing to the synthesis of DADHL which formed from the condensed formaldehyde and acetylacetone in the condition of excess of ammonium salt. Then UV/Vis detection was carried out with a UV-1603 Spectrophotometer (Reche et al., 2000). The maximum absorbance was approximately at 415nm which was used in analyzing FA concentration in sample and the sample solution (Shimadzu Application News).4.1.3 Advantages and disadvantagesThe spectrophotometers are widely used in many laboratories and institutes. This method has advantages such as the lower instrument capital and operational cost and easy operation. However, the sensitivity and selectivity are lower than GC and HPLC method. For extremely low FA concentrations in water sample, this method is limited in application.4.2 Chromatography methodsFor chromatography, since FA concentrations in water and wastewater are very low, it must be derivatized prior to analysis to ensure quantitative and qualitative detection. Nash reagent, dinitrophenylhydrazine and PFBHA reagent are typical agents which can have color reactions with FA. Then their derivatives can provide better sensitivity for UV, fluorescence or MS detection (M ichels et al., 2001).4.2.1 GCGC is widely used in FA analysis. According to many researches using GC for FA determination, the mobile phase is usually helium and the different stationary phases were covered on column. By measuring the different retention time of the analytes, FA concentrations can be calculated out.1. GC/MSIn FA analysis, different molecules in solution can be separated during the sample travel by GC and then the mass to charge ratio of ionized fragments of FA can be detected by MS (Robert et al., 2007).One of the researches used the pentafluorobenzyl hydroxylamine (PFBHA) reagent to form derivatives and then used a Varian CP-3800 GC system connected with a Varian 4000 ion trap MS system for detection. The injector was operated at 250C in split mode and separation was conducted on a 0.25m DB5-MS capillary column. Electron impact ionization (EI) in full scan from 150 to 275m/z was used in MS analysis (Trenholm et al., 2008). Then the FA concentrations can be measured by recording mass to charge ratio. Another similar study also used PFBHA derivatization reagent and GC/ MS method (Bianchi et al., 2007).Advantages and disadvantages of GC/MSCombining GC with MS can have better identification and separation of molecules than single GC since molecules behave different in GC and MS. For FA analysis, GC/MS is widely used due to its rapid operation, high precision and selectivity. Having considered its good performance and cost effectiveness, it is proposed to be an alternative of traditional methods (US EPA 1998).One of the drawbacks is GC/MS is less sensitive than HPLC in identification of the FA derivatives. Another problem is GC/MS is susceptible to interference. For wastewater sample, the compounds are often complex, therefore the interferences may lead to imprecise analysis.2. GC/ECDUS EPA offers another alternative method to measure FA.The oxime derivatives were formed by adding pentafluorobenzyl hydroxylamine (PFBHA) reagent to FA solution at p H of 4. Then they are extracted from the water with 4mL hexane. After processing through an acidic wash step, the extracts are analyzed by GC with electron have detection (GC/ECD). After comparing with the calibration standard, the analytes can be identified. Two chromatographic peaks have been observed for FA that both (E) and (Z) isomers are formed for FA carbonyl compounds (US EPA 1998). resemblance of GC/MS and GC/ECDECD offers better detection limits (