A Life-Cycle Approach to Purchasing and Using Environmentally Preferable Paper

The PaperTask Force, a group of major U.S. paper purchasers convened by the Environmental Defense Fund (EDF), recently completed a life cycle-based study of various grades of paper that examined a broad range of economic, functional, and especially environmental issue. This 28-month effort culminated in the release of a final report and recommendations intended to educate paper purchasers about the consequences of their paper purchasing decisions. The report also provides actionable steps that can be taken to increase the purchase and use of environmentally preferable paper; defined as paper that reduces environmental impacts while meeting business needs. The technical basis for the PaperTask Force recommendations is an analysis of environmental impacts associated with the entire life cycle of several major grades of paper; reaching literally from the forest to the 1andfill. The Task Force's findings and recommendations cover each of the major areas of opportunity to lessen the environmental impacts of using paper: reduction in paper use; paper recycling and buying recycled paper: forest management; and pulp and paper manufacturing. journal of Industrial Ecology I5 paper recycling     

Enzymatic deinking of various types of waste paper: Efficiency and characteristics

The aim of the present study was to characterize the enzymatic deinking of various types of waste paper. Studies on the optimization of enzymatic deinking have been performed previously using commercially available enzyme preparations containing cellulase and hemicellulase. The enzymatic deinking of different types of waste paper demonstrated a high efficiency of 86.6% on laser-printed paper, but a low deinking efficiency of 12.9% was obtained with newspaper. All enzymatic treatments significantly improved the drainage rate of the deinked waste paper. Enzymatic deinking increased the tensile index of magazine paper but reduced the tensile index of bubble jet-printed paper, photocopy paper and newspaper. Enzymatic hydrolysis caused a 21.1% reduction in the tear index for bubble jet-printed paper, but a 3.1% increase in the tear index was obtained for laser-printed paper relative to respective blank. In addition, enzymatic hydrolysis increased the burst index by 4.7% relative to blank for laser-printed paper. However, photocopy paper showed the highest reduction (8.3%) in the burst index relative to blank. Taken together, these results suggest that enzymatic hydrolysis is both advantageous and detrimental to the mechanical properties of deinked paper. Thus, the proper regulation of enzymatic hydrolysis is crucial to improve the quality of recycled paper.     

Quality of paper boards from arecanut leaf sheath

A study was carried on utilizing arecanut leaf sheath for making paper boards. Paper boards were made with various combinations of arecanut leaf sheath with waste paper, 1:1, 1:2, 1:3, 3:1, 2:1, control (100% areca leaf sheath) and the qualities of these paper boards were tested as per the Bureau of Indian Standards (IS: 1060 (part-I)-1966). The paper boards made with more arecanut sheath materials had more resistance to water absorption. The addition of paper increased the substance weight of the paper boards. The 2:1 and 3:1 combinations of arecanut leaf sheath and waste paper had best tear strength, tensile strength, bursting strength and water resistance with minimum substance weight.     

造纸用木聚糖酶的基因工程研究进展

木聚糖酶用于造纸行业可以显著改善纸浆的性能,减少纸张处理过程中有害化学试剂的使用,从而减轻环境污染,提高纸张品质,因此在造纸工业中具有广阔的应用前景。本文从造纸用碱性木聚糖酶基因的克隆、分子改造、高效表达及在造纸行业的应用研究等方面出发,对造纸用碱性木聚糖酶的研究现状进行综述,为开发造纸用木聚糖酶提供了思路。     

The treatment of pulp and paper mill effluent: a review

The manufacture of paper generates significant quantities of wastewater; as high as 60 m3/tonne of paper produced. The raw wastewaters from paper and board mills can be potentially very polluting. Indeed, a recent survey within the UK industry has found that their chemical oxygen demands can be as high as 11000 mg/l. This paper reviews the processes involved in paper making and examines the effects which they could have on the environment. It also evaluates the treatment processes which are used to minimise these effects. In line with the majority of UK practice, it focuses mainly on aerobic biological treatment and, in particular, on the activated sludge process. This means that there is an in-depth discussion about the problems associated with filamentous bacteria and sludge "bulking". The paper also discusses the way in which anaerobic digestion can be applied to the treatment of liquid wastes from the manufacture of paper.     

药敏药片临床应用观察报告

本文报导省市级三所医院同时用药敏药片和药敏纸片对国际标准质株做抑菌试验,其结果:药片片重差变异系数cv=2.5,纸片cv=14.4.抽样五种抗菌素抑菌环直径差变异系数分别为:药片平均cv=3.07,而纸片平均cv=6.85;均匀度L药片为2-3mm纸片为3-5mm.表明药片片间差小,均匀度、准确度合格,药物含量均匀,精密度好于纸片.     

Rapid synthesis of antimicrobial paper under microwave irradiation

The silver-nanoparticle (AgNP) containing paper was successfully prepared. The AgNP is deposited by the in situ reduction of silver nitrate on the acrylamide grafted bagasse paper sheets in the presence of citrate molecules as stabilizing agent. In the present paper, grafting of acrylamide onto bagasse paper sheets using potassium persulfate was carried out under the influence of microwave radiations (MWR). The modified paper sheets were characterized by Fourier transform infrared spectroscopy (FTIR), UV-spectroscopy, and scanning electron microscopy (SEM). Antimicrobial activities of the prepared paper sheets were also investigated against G+ve bacterium Staphylococcus aureus, G-ve bacterium Pseudomomas aeruginosa, and yeast Candida albicans, which are model microorganisms for testing bactericidal properties. The AgNP containing paper sheets exhibited antibacterial activity.     

Enzymatic hydrolysis of waste office paper using viscosity as operating parameter

Enzymatic hydrolysis of waste office (WO) paper with feeding WO paper in a reactor was investigated using apparent viscosity as operating parameter. Since the apparent viscosity was correlated with the concentration of pulping WO paper, the amount of hydrolyzed WO paper was assumed by measuring the decrease in the apparent viscosity. Then the amount of hydrolysis WO paper and the amount of enzyme corresponding to the desired ratio were fed into the reactor. When the WO paper and 1% (to the amount of WO paper) enzyme were fed to the hydrolytic reaction, 87 g/L of reducing sugar (RS) with a hydrolytic yield of 42.2% was obtained for a 24-h hydrolysis. However, when nonpulping WO paper and 5% (to the amount of WO paper) enzyme were fed to the hydrolytic reaction, 120 g/L of RS with a hydrolytic yield of 40% was obtained for a 24-h hydrolysis. Therefore, the RS concentration from this hydrolysis process feeding WO paper using apparent viscosity as operating parameter may be of sufficient concentration to serve as a carbon source in microorganism culture or chemical feedstock.     

纤维素酶脱墨机理的研究进展

废纸是制浆造纸纤维原料的重要来源,利用生物酶法对废纸浆进行生物脱墨是一种新的造纸生物技术,酶法脱墨所使用的酶种主要是纤维素酶。本文主要就近十年来国内外纤维素酶酶法脱墨的研究特别是影响纤维素酶酶法脱墨的因素及脱墨机理作了综述报道。     

Sugar composition of biofilms produced by paper mill bacteria

Biofilms of paper mill bacteria were cultivated in paper mill white water-simulating conditions on glass slides or stainless steel coupons in a laboratory culture system. The sugar content and composition of the biofilms were analysed and compared with the sugar composition of paper mill slimes. Acid methanolysis followed by gas chromatography revealed that Burkholderia was the major biofilm producer in pure culture, producing up to 50 microg of biofilm sugar cm(-2) in 5 days in rich medium and 10 microg in paper mill simulating medium. A mixture of simulated paper mill water with a culture medium yielded more biofilm (100 microg cm(-2)) than either of the media alone, so the biofilm accumulation was not proportional to the available substrate. More biofilm accumulated on stainless steel coupons than on glass slides, and the steel-coupon biofilms contained slightly more uronic acids. The biofilm sugars contained mainly galactose, glucose, mannose, and rhamnose. In paper mill medium, the Burkholderia biofilm contained more galactose and glucose, and less rhamnose, than in rich laboratory medium. The sugar composition of paper mill slimes was quite similar to those of steel-cultured Burkholderia cepacia biofilms. This suggests that Burkholderia cepacia is responsible for much of the slime in the paper mill.     

Gravimetric screening method for fungal decay of paper: inoculation with <Emphasis Type="Italic">Trametes</Emphasis> <Emphasis Type="Italic">versicolor</Emphasis>

The European standard test EN 113 for fungal degradation of solid wood has been adapted for degradation of paper by white rot fungus (Trametes versicolor). Fungal degradation of paper sheets may potentially be used for screening different wood preservatives on paper instead of solid wood. The paper samples showed higher relative mass losses compared to wood, and samples pretreated with boric acid, copper sulfate and polymerized linseed oil were successfully tested for biodegradation using the paper sheet method. The results on paper degradation were compared with wood, both as wood blocks (according to standard test) and wood cut in sections forming layered structures mimicking paper layers.     

Novel 'dot-blot' assays for glycosyltransferases and glycosylhydrolases: optimization for xyloglucan endotransglycosylase (XET) activity

A novel dot-blot method is described for the rapid, semi-quantitative assay of xyloglucan endotransglycosylase (XET) activity. Test paper was prepared by impregnating Whatman No. 1 filter paper with xyloglucan (2.5 g m⁻² paper) plus a sulphorhodamine conjugate of the xyloglucan oligosaccharide, XLLG (1 µmol m⁻²). Spots of putative enzyme solution were applied to the test paper, which was incubated under humid conditions. XET-catalysed transglycosylation produced a xyloglucan-sulphorhodamine conjugate. The test paper was washed to remove unreacted oligosaccharide, leaving fluorescent spots of the xyloglucan-sulphorhodamine reaction product hydrogen-bonded to the paper. The assay is suitable for testing crude plant extracts (including Arabidopsis stems squashed directly on to the test paper). The test paper is also suitable for tissue-printing of plant specimens and for preparation of zymograms after non-denaturing gel electrophoresis. Tissue prints indicated that extractable XET activity tends to be concentrated in the outer tissues and sometimes in or near the vascular bundles. The method reported can be quantified by fluorimetry and can potentially be extended to the assay of other transglycosylases (including polysaccharide synthases, fructosyl-transferase and dextransucrase) and hydrolases.     

Towards a Sustainable Paper Cycle: A Summary

The production of paper is a key economic activity accounting in value terms for about 2.5% of the world's industrial production and 2% of world trade. Paper products make a vital contribution to education, communications, packaging, and health care. In recent years the paper cycle has become the focus of environmental concerns about the impacts of forestry pollution from manufacturing, and waste. To address these concerns, the World Business Council for Sustainable Development commissioned the International Institute for Environment and Development (IIED) to examine the sustainability of the paper cycle. The first phase ofthe study involved a review of literature related to the paper cycle to identify the main debates and gaps in knowledge. This was followed by a journal of Industrial Ecology wide-ranging program of research and consultation on various aspects of the paper cycle. This article summarizes the key findings of the study for different stages of the cycle covering issues such as the impacts of forestry, the outlook for fiber supply, the role of nonwood fiber; the environmental and social impacts of pulp and paper manufacturing, the choice of options for wastepaper and the contribution of the paper cycle to greenhouse gas emissions. The study makes a number of recommendations for the pulp and paper industry, governments, international agencies, consumers, and nongovernmental organizations     

Some multi-dimensional branching processes as motivated by a class of problems in mathematical genetics II

This paper is a continuation of a paper, “Some Multi-Dimensional Branching Processes as Motivated by a Class of Problems in Mathematical Genetics I,” by C. J. Mode, which appeared in a previous issue of theBulletin. Its purpose is two-fold; namely to discuss the mathematical existence of the model and to supply the mathematical proofs of some theorems in section two of the paper mentioned above. This paper should be read in conjunction with the previous paper. The research reported in this paper was supported in part by the United States Atomic Energy Commission, Division of Biology and Medicine Project AT(45-1)-1729.     

Abundance of wasps and prey consumption of paper wasps (Hymenoptera, Vespidae : Polistinae) in Northland, New Zealand

Polistine and vespine wasps were captured in Malaise traps in two fire-modified shrubland habitats of varying canopy height and composition at Lake Ohia, Northland, New Zealand. Prey consumption rates were calculated for the Asian paper wasp (Polistes chinensis antennalis) occupying these two areas of shrubland and a home garden in Whangarei, Northland. The sites were systematically searched for nests and wasp prey determined by intercepting foragers returning to nests. The Asian paper wasp predominated in the Malaise trap samples from the low- growing habitat while the German wasp (Vespula germanica) was more common in the taller vegetation type. The Asian paper wasp was more abundant than the German wasp in the samples in February and early March. Only four Australian paper wasps (Polistes humilis) and no common wasps (Vespula vulgaris) were caught. Asian paper wasps collected an estimated 15 000 prey loads per ha per season from one of the shrubland areas, and 478 000 prey loads per ha per season from the second area. These convert to estimates of 31 and 957 g per ha per season of invertebrate biomass removed by paper wasps from each habitat, respectively. The estimate for the garden site was 79 g per ha per season. Wasp nest densities varied between 20 and 210 nests per hectare. The biomass estimates are similar to average figures calculated for vespine wasps in scrubland and pasture. Both Asian paper wasps and Australian paper wasps preyed mainly on lepidopteran larvae. The cabbage white butterfly (Pieris rapae) was the most commonly collected species. Noctuid species were also well represented. Both male and female Asian paper wasps collected nectar in late March and early April.     

Life cycle assessment of printing and writing paper produced in Portugal

Goal, Scope and Background The environmental sustainability is one of the current priorities of the Portuguese pulp and paper industry. Life Cycle Assessment (LCA) was the methodology chosen to evaluate the sustainability of the printing and writing paper production activity. This paper grade represents about 60% of the total production of paper in Portugal and its production is expected to increase in the near future. The main goal of this study was to assess the potential environmental impacts associated with the entire life cycle of the printing and writing paper produced in Portugal from Eucalyptus globulus pulp and consumed in Germany, in order to identify the processes with the largest environmental impacts. Another goal of this study was to evaluate the effect on the potential environmental impacts of changing the market where the Portuguese printing and writing paper is consumed: German market vs. Portuguese market. Methods The main stages considered in this study were: forestry, pulp production, paper production, paper distribution, and paper final disposal. Transports and production of chemicals, fuels and energy in the grid were also included in these stages. Whenever possible and feasible, average or typical data from industry were collected. The remaining data were obtained from the literature and specialised databases. A quantitative impact assessment was performed for five impact categories: global warming over 100 years, acidification, eutrophication, non-renewable resource depletion and photochemical oxidant formation. Results In the German market scenario, the paper production stage was a remarkable hot spot for air emissions (non-renewable CO₂, NO_x and SO₂) and for non-renewable energy consumption, and, consequently, for the impact categories that consider these parameters: global warming, acidification and non-renewable resource depletion. These important environmental impacts are due to the energy requirements in the printing and writing paper production process, which are fulfilled by on-site fuel oil burning and consumption of electricity from the national grid, which is mostly based on the use of fossil fuels. The pulp production stage was identified as the largest contributor to water emissions (COD and AOX) and to eutrophication. Considering that energy consumed by the pulp production processes comes from renewable fuels, this stage was also the most contributing to renewable energy consumption. Discussion The paper distribution stage showed an important contribution to NO_x emissions, which, however, did not result in a major contribution to acidification or eutrophication. The final disposal stage was the main contributor to the photochemical oxidant formation potential due to CH₄ emissions from wastepaper landfilling. On the other hand, paper consumption in Portugal was environmentally more favourable than in Germany for the parameters/impact categories where the paper distribution stage has a significant contribution (non-renewable CO₂, NO_x, non-renewable energy consumption, acidification, eutrophication and non-renewable resource depletion) due to shorter distances needed to deliver paper to the consumers. For the remaining parameters/impact categories, the increase observed in the final disposal stage in the Portuguese market was preponderant, and resulted from the existence of significant differences in the final disposal alternatives in the analysed markets (recycling dominates in Germany, whereas landfilling dominates in Portugal). Conclusions The pulp and paper production stages were found to be of significance for almost all of the inventory parameters as well as for the impact assessment categories. The paper distribution and the final disposal stages were only of importance for some of the inventory parameters and some of the impact categories. The forestry stage played a minor role in the environmental impacts generated during the paper life cycle. The consumption of paper in Portugal led to a decrease in the environmental burdens of the paper distribution stage, but to an increase in the environmental burdens of the final disposal stage, when compared with the consumption of paper in Germany. Recommendations and Perspectives This study provides useful information that can assist the pulp and paper industry in the planning of future investments leading to an increase in its sustainability. The results of inventory analysis and impact assessment show the processes that play an important role in each impact category, which allow the industry to improve its environmental performance, making changes not only in the production process itself, but also in the treatment of flue gases and liquid effluents. Besides that concern regarding pollution prevention, other issues with relevance to the context of sustainability, such as the energy consumption, can also be dealt with.     

The potential and limits of termites (Isoptera) as decomposers of waste paper products

Termites (Isoptera) have often been proposed as decomposers oflignocellulosic waste, such as paper products, while termite biomass could be harvested for food supplements. Groups of Coptotermes formosanus Shiraki and Reticulitermes speratus (Kolbe) were kept for 4 and 8 wk, respectively, in the laboratory and given up to 10 different types of paper as their food source. Paper consumption, survival, caste composition, and lipid content were recorded. Corrugated cardboard was by far the most consumed paper product, although survival on it was not necessarily favorable. In R. speratus, lipid reserves and neotenic numbers were quite high, but no breeding occurred. Cardboard may be the "junk food" equivalent for termites. Within the tested period, termites did not perform well on paper products that form the bulk of waste paper--corrugated cardboard, newsprint, and pamphlets and magazines. On all paper products (except recycled office paper), neotenic reproductives were formed, but larvae were observed only on kraft pulp and tissue paper. That all waste paper products contain lignocellulosic fibers does not automatically make them suitable for decomposition by termites. Each paper product has to be assessed on its own merit to see whether termites can reproduce on this diet, if it were to be a candidate for sustainable "termidegradation" and termite biomass production.     

Facile Preparation of Nanostructured,Superhydrophobic Filter Paper for Efficient Water/Oil Separation

In this paper, we present a facile and cost-effective method to obtain superhydrophobic filter paper and demonstrate its application for efficient water/oil separation. By coupling structurally distinct organosilane precursors (e.g., octadecyltrichlorosilane and methyltrichlorosilane) to paper fibers under controlled reaction conditions, we have formulated a simple, inexpensive, and efficient protocol to achieve a desirable superhydrophobic and superoleophilic surface on conventional filter paper. The silanized superhydrophobic filter paper showed nanostructured morphology and demonstrated great separation efficiency (up to 99.4%) for water/oil mixtures. The modified filter paper is stable in both aqueous solutions and organic solvents, and can be reused multiple times. The present study shows that our newly developed binary silanization is a promising method of modifying cellulose-based materials for practical applications, in particular the treatment of industrial waste water and ecosystem recovery.     

A bioremediation case of an ex-quarry area restored by paper sludge

Most paper industry waste is in the form of sludge from paper production and recycle process paper. There has been an increasing use of paper sludge in environmental restoration, a practice that requires particular attention. This issue presents a case which demonstrates how the biogas production related to this kind of recovery system can represent a problem for environmental protection and public health. The case history relates to a former quarry area restored by means of paper sludge. After the filling, a substantial quantity of biogas was produced, with an external diffusion to sensible target as well. Initial investigations showed that the area was characterized by a large amount of paper mill sludge made unstable by anaerobic conditions. To date there are no proven technologies for this kind of treatment. In this case, for safety and naturalization as agricultural area, new methods of bioremediation were used and, in particular, an innovative physical, mechanical and biological intervention, based on bio-stabilization of paper mill sludge. The treatment is site-specific, based on the in-site paper sludge biostabilisation. To complete the intervention and in order to demonstrate its validity an important monitoring activity was performed, testing all the phases affected by the biological transformation.     

Printing of polymer microcapsules for enzyme immobilization on paper substrate

Poly(ethyleneimine) (PEI) microcapsules containing laccase from Trametes hirsuta (ThL) and Trametes versicolor (TvL) were printed onto paper substrate by three different methods: screen printing, rod coating, and flexo printing. Microcapsules were fabricated via interfacial polycondensation of PEI with the cross-linker sebacoyl chloride, incorporated into an ink, and printed or coated on the paper substrate. The same ink components were used for three printing methods, and it was found that laccase microcapsules were compatible with the ink. Enzymatic activity of microencapsulated TvL was maintained constant in polymer-based ink for at least eight weeks. Thick layers with high enzymatic activity were obtained when laccase-containing microcapsules were screen printed on paper substrate. Flexo printed bioactive paper showed very low activity, since by using this printing method the paper surface was not fully covered by enzyme microcapsules. Finally, screen printing provided a bioactive paper with high water-resistance and the highest enzyme lifetime.