Dust pollution and control with leather waste

Adeniran AE, Nubi AT, Adelopo AO (2017) Solid waste generation and characterization in the University of Lagos for a sustainable waste. Waste Manage 67:3–10 Al-Hassan AA, Norziah MH (2012) Starch–gelatin edible films: water vapor permeability and mechanical properties as affected by plasticizers. Food Hydrocoll 26:108–117 Amato F, Querol X, Johansson C, Nagl C, Alastuey A (2010) A review on the effectiveness of street sweeping, washing and dust suppressants as urban PM control methods. Sci Total Environ 408:3070–3084 Anenberg SC, Horowitz LW, Tong DQ, West JJ (2010) An estimate of the global burden of anthropogenic ozone and fine particulate matter on premature human mortality using atmospheric modeling. Environ Health Perspect 118:1189e1195 Anenberg SC, Schwartz J, Shindell D, Amann M, Faluvegi G, Klimont Z, Janssens-Maenhout G, Pozzoli L, Van Dingenen R, Vignati E (2012) Global air quality and health co-benefits of mitigating near-term climate change through methane and black carbon emission controls. Environ Health Perspect 120:831 Arnab K, Patel NR, Saha SK (2017) Desertification in western Rajasthan (India): an assessment using remote sensing derived rain-use efficiency and residual trend methods. Nat Hazards 86:297–313 Bachmanna J, Ellies A, Hartge KH (2000) Development and application of a new sessile drop contact angle method to assess soil water repellency. J Hydrol 231:66–75 Brown EM, Taylor MM, Marmer NW (1996) Production and potential uses of co-products from solid tannery waste. J Am Leather Chem Assoc 91:270–276 Cabeza FL, Taylor MM, Dimaio LG (1998) Processing of leather waste: pilot scale studies on chrome shavings. Isolation of potentially valuable protein products and chromium. Waste Manage 18:211–218 Chang YM, Chou CM, Su KT, Tseng CH (2005) Effectiveness of street sweeping and washing for controlling ambient TSP. Atmos Environ 39:1891–1902 Charron A, Harrison R (2005) Fine (PM2.5) and coarse (PM2.5–10) particulate matter on a heavily trafficked London highway: sources and processes. Environ Sci Technol 39:7768–7776 Chaudhary R, Pati A (2016) Purification of protein hydrolyzate recovered from chrome tanned leather shaving waste. J Am Leather Chem Assoc 111:10–16 Chen C, Fan H, Feng P (2008) Development of comprehensive utilization of leather solid waste. Leather Sci Eng 18:27–33 (in Chinese) Chou C, Chang Y, Lin W, Tseng C (2007) Evaluation of street sweeping and washing to reduce ambient PM10. Int J Environ Pollut 31:431–448 Cuscino T, Muleski GE, Cowherd C (1983) Determination of the decay in control efficiency of chemical dust suppressants. Proceedings–symposium on iron and steel pollution abatement technology for 1982. Research Triangle Park, US Environmental Protection Agency, Research Triangle Park Cybulski K, Malich B, Wieczorek A (2015) Evaluation of the effectiveness of coal and mine dust wetting. J Sustain Mining 14:83–92 Dang X, Shan Z, Chen H (2016a) Usability of oxidized corn starch-gelatin blends for suppression and prevention of dust. J Appl Polym Sci 134:1131–1139 Dang X, Shan Z, Chen H (2016b) The preparation and applications of one biodegradable liquid film mulching by oxidized corn starch–gelatin composite. Appl Biochem Biotechnol 180:917–929 Davies GA, Juma S, Jeffreys GV (1972) Measurement of contact angles in ternary liquid systems. Chem Eng J 4:21–30 Ding W, Zhou J, Liao X et al (2012) Review for dechromization methods of chromium-containing leather waste. China Leather 41:45–55 (in Chinese) Du CF, Li L (2013) Development and characterization of formulation of dust-suppressant used for stope road in open-pit mines. J Coal Sci Eng (China) 19:219–225 Fathima NN, Rao JR, Nair BU (2014) Chapter 23: effective utilization of solid waste from leather industry. Role Colloid Syst Environ Prot 64:593–613 Fergusson JE (1992) Dust in the environment elemental composition and sources. Sci Global Change 5:117–133 Gherboudj I, Beegum SN, Ghedira H (2017) Identifying natural dust source regions over the Middle-East and North-Africa: estimation of dust emission potential. Earth Sci Rev 165:342–355 Gooch’ich BA, Koski RD, Jacobi WR (2008) Condition of soils and vegetation along roads treated with magnesium chloride for dust suppression. Water Air Soil Pollut 198:165–188 Hu F, Cheng X, Zeng Q (2015) The mechanism of dust entrainment under strong wind with gustiness. Proc IUTAM 17:20–28 Huang Z (1994) Surface wetting and wetting phase change. Shanghai Science and Technology Press, Shanghai, pp 38–42 Hueglin C, Gehrig R, Baltensperger U, Gysel M, Monn C, Vonmont H (2005) Chemical characterisation of PM2.5, PM10 and coarse particles at urban, near-city and rural sites in Switzerland. Atmos Environ 39:637–651 Jiang H, Liu J, Han W (2016) The status and developments of leather solid waste treatment: a mini-review. Waste Manage Res 34:399–408 Jin L, Wang L, Chen D (2006) Corrosion inhibition of a hygroscopic inorganic dust-depressor. J Univ Sci Technol Beijing 13:368–371 Kanagaraj J, Chandra BNK, Mandalk AB (2008) Recovery and reuse of chromium from chrome tanning waste water aiming towards zero discharge of pollution. J Clean Prod 16:1807–1813 Kanagaraj J, Senthilvelan T, Panda RC, Kavitha S (2015) Eco-friendly waste management strategies for greener environment towards sustainable development in leather industry: a comprehensive review. J Clean Prod 89:1–17 Kazem AA, Chaichan MT, Kazem HA (2014) Dust effect on photovoltaic utilization in Iraq: review article. Renew Sust Energ Rev 37:734–749 Ketzel M, Omstedt G, Johansson C, During I, Pohjola M, Oettl D (2007) Estimation and validation of PM2.5/PM10 exhaust and non-exhaust emission factors for practical street pollution modeling. Atmos Environ 41:9370–9385 Kim K-H, Kabir E, Kabir S (2015) A review on the human health impact of airborne particulate matter. Environ Int 74:136e143 Kong J, Yue Q, Huang L, Gao Y, Sun Y, Gao B, Li Q, Wang Y (2013) Preparation, characterization and evaluation of adsorptive properties of leather waste based activated carbon via physical and chemical activation. Chem Eng J 221:62–71 Konikkara N, Kennedy LJ (2017) Electrochemical properties of solid leather wastes based supercapacitor electrodes using H2SO4 electrolyte. Mater Lett 205:56–61 Konikkara N, Kennedy LJ, Vijaya JJ (2016) Preparation and characterization of hierarchical porous carbons derived from solid leather waste for supercapacitor applications. J Hazard Mater 318:173–185 Li W, Cheng F, Yu C (2003) Study progress on chrome leather scrap as a resource. Leather Chem 20:12–15 (in Chinese) Li QZ, Lin BQ, Zhao S, Dai HM (2013) Surface physical properties and its effects on the wetting behaviors of respirable coal mine dust. Powder Technol 233:137–145 Li M, Chai S, Du H (2016) Wind erosion control of soil solidified by SH dust-depressor in construction site. Bull Soil Water Conserv 36:185–190 Liu Z, Li A, Hu Z, Sun H (2014) Study on the potential relationships between indoor culturable fungi, particle load and children respiratory health in Xi’an, China. Build Environ 80:105–114 Liu Z, Xu W, Qian C et al (2015) Investigation on the feasibility and performance of ground source heat pump (GSHP) in three cities in cold climate zone, China. Renew Energy 84:89–96 Liu Z, Xu W, Zhai X et al (2017) Feasibility and performance study of the hybrid ground-source heat pump system for one office building in Chinese heating dominated areas. Renew Energy 101:1131–1140 Lu F, Xu D, Cheng Y, Dong S, Guo C, Jiang X, Zheng X (2015) Systematic review and meta-analysis of the adverse health effects of ambient PM2.5 and PM10 pollution in the Chinese population. Environ Res 136:196–204 Marmur A (2006) Soft contact: measurement and interpretation of contact angles. Soft Matter 2:12–17 Matignon A, Moulin G, Barey P (2014) Starch carrageenan milk proteins interactions studied using multiple staining and confocal laser scanning microscopy. Carbohydr Polym 99:345–355 Medeiros MA, Carla MM, Lago RM (2012) Use of glycerol by-product of biodiesel to produce an efficient dust suppressant. Chem Eng J 180:364–369 Meng J, Liu J, Fan S, Kang C, Yi K, Cheng Y, Shen X, Tao S (2016) Potential health benefits of controlling dust emissions in Beijing. Environ Pollut 213:850–859 Mercier F, Glorennec P, Ol T, Bot BL (2011) Organic contamination of settled house dust: a review for exposure assessment purposes. Environ Sci Technol 45:6716–6727 Middleton NJ (2017) Desert dust hazards: a global review. Aeolian Res 24:53–63 Morman SA, Plumlee GS (2013) The role of airborne mineral dusts in human disease. Aeolian Res 9:203–212 Moussa RB, Proust C, Guessasma M, Saleh K, Fortin J (2017) Physical mechanisms involved into the flame propagation process through aluminum dust-air clouds: a review. J Loss Prevent Proc Ind 45:9–28 Muralidhara HS (1982) Recovery of potential energy and chromium values from leather tannery wastes. United States Patent 4332584, 1982–6–1 Muralidhara HS, Maggin B, Phipps H Jr. (1982) Conversion of tannery waste to useful products. Resour Conserv 8:43–59 Ogle RA (2017) Chapter 1: introduction to combustible dust hazards. Dust Explos Dyn 1–34 Okonkwo EM, Ofoegbu O (2008) Renewable eco-friendly material for road dust suppression and prevention. In: Place published: 2rd international conference on waste management, water pollution, air pollution, indoor climate (MVAI’08), pp 266–270 Prigiobbe V, Polettini A, Baciocchi R (2009) Gas–solid carbonation kinetics of air pollution control residues for CO2 storage. Chem Eng J 148:270–278 Robertson G (2016) 7-Clearing the air: improving indoor air quality in libraries. Robertson Libr Secur Disaster Plan 41–44 Rodriguez S, Querol X, Alastuey A, de la Rosa J (2007) Atmospheric particulate matter and air quality in the Mediterranean: a review. Environ Chem Lett 5:1–7 Schwartz J, Coull B, Laden F, Ryan L (2008a) The effect of dose and timing of dose on the association between airborne particles and survival. Environ Health Perspect 116:64 Schwartz J, Coull B, Laden F, Ryan L (2008b) The effect of dose and timing of dose on the association between airborne particles and survival. Environ Health Perspect 116:64e69 Senthilselvan A, Zhang Y, Dosman JA (1997) Positive human health effects of dust suppression with canola oil in swine barns. Am J Respir Crit Care Med 156:410–417 Song J, Tao W, Chen W (2008) Ultrasound-accelerated enzymatic hydrolysis of solid leather waste. J Clean Prod 16:591–597 Tang M, Cziczo DJ, Grassian VH (2016) Interactions of water with mineral dust aerosol: water adsorption, hygroscopicity, cloud condensation, and ice nucleation. Chem Rev 116:4205–4259 Taylor MM, Diefendor EJ, Marmer NW (1997) Extraction of value added by products from the treatment of chromium containing collagenous leather industry waste. J Soc Leather Technol Chem 81:5–13 Taylor MM, Cabeza FL, Dimaio LG (1998) Processing of leather waster: pilot scale studies on chrome shavings (I): isolation and characterization of protein products and separation of chrome cake. J Am Leather Chem Assoc 93:61–82 Thomazine TA, Farayde MF, Silvia MM (2012) Edible films made from blends of manioc starch and gelatin—influence of different types of plasticizer and different levels of macromolecules on their properties. LET Food Sci Technol 49:149–154 Wang H, Wang C, Fu J, Gu G (2013) Wetting behavior and mechanism of wetting agents on low-energy surface. Colloid Surf A 424:10–17 Wathen BJ (2002) Method and composition for reducing dust and erosion of earth surfaces [P]. U.S. 6443661 Wu Z, Zhang X, Wu M (2016) Mitigating construction dust pollution: state of the art and the way forward. J Clean Prod 112:1658–1666 Xu C, Wang D, Wang H, Xin H, Ma L, Zhu X, Zhang Y, Wang Q (2017) Effects of chemical properties of coal dust on its wettability. Powder Technol 318:33–39 Xuan J, Sokolik IN, Hao J, Guo F, Yang G (2004) Identification and characterization of sources of atmospheric mineral dust in East Asia. Atmos Environ 38:6239–6252 Yang J, Gu JM, Wu XK, Tan YZ (2008) Study on wetting of coal dust by measuring dynamic contact angle. Saf Coal Mines 12:7–10 Yu T, Chiang Y, Yuan C, Hung C (2006) Estimation of enhancing improvement for ambient air quality during street flushing and sweeping. Aerosol Air Qual Res 6:380–396 Zeng KS, Hu NL, Cheng WM, Zhou G, Yang P (2009) Dedusting mechanism by water-cloud of wetting agents and the relevant tests for fully-mechanized and roof caving coal face. J China Coal Soc 34:1675 Zhan Q, Qian C (2016) Effect of treatment process on consolidation efficiency of fugitive dust cemented by bio-activated cementitious material based on CO2 capture. Sci China Technol Sci 59:1194–1200 Zhang N, Liu H, Yu L, Liu X, Zhang L, Chen L (2013) Developing gelatin-starch blends for use as capsule materials. Carbohydr Polym 92:455–461 Zhou G, Cheng WM, Wang G, Nie W (2009) Dedusting technique of surfactant for fully-mechanized and roof caving coal face. Ind Saf Environ Prot 35:17 Zhou Q, Qin B, Ma D, Jiang N (2017) Novel technology for synergetic dust suppression using surfactant-magnetized water in underground coal mines. Process Saf Environ Prot 109:631–638 Zuo J, Rameezdeen R, Hagger M, Zhou Z, Ding Z (2017) Dust pollution control on construction sites: awareness and self-responsibility of managers. J Clean Prod 166:312–320