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Disposal Costs (disposal + cost)

Distribution by Scientific Domains
Chemistry57%
Engineering42%

Selected Abstracts

The potential reuse of biodegradable municipal solid wastes (MSW) as feedstocks in vermicomposting

JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, Issue 13 2010
Edwin Yih Shyang Sim
Abstract There is an urgent need globally to find alternative sustainable steps to treat municipal solid wastes (MSW) originated from mismanagement of urban wastes with increasing disposal cost. Furthermore, a conglomeration of ever-increasing population and consumerist lifestyle is contributing towards the generation of more MSW. In this context, vermicomposting offers excellent potential to promote safe, hygienic and sustainable management of biodegradable MSW. It has been demonstrated that, through vermicomposting, MSW such as city garbage, household and kitchen wastes, vegetable wastes, paper wastes, human faeces and others could be sustainably transformed into organic fertiliser or vermicompost that provides great benefits to agricultural soil and plants. Generally, earthworms are sensitive to their environment and require temperature, moisture content, pH and sometimes ventilation at proper levels for the optimum vermicomposting process. Apart from setting the optimum operational conditions for the vermicomposting process, other approaches such as pre-composting, inoculating micro-organisms into MSW and redesigning the conventional vermireactor could be introduced to further enhance the vermicomposting of MSW. Thus the present mini-review discusses the potential of introducing vermicomposting in MSW management, the benefits of vermicomposted MSW to plants, suggestions on how to enhance the vermicomposting of MSW as well as risk management in the vermicomposting of MSW. Copyright © 2010 Society of Chemical Industry [source]

Foam fractionation of ,-lactalbumin and ,-lactoglobulin from a whey solution

ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING, Issue 2 2009
A. P. Shea
Abstract Whey, a byproduct of cheese production, is often considered a waste stream. Separation and purification of whey proteins is a difficult and expensive task. Occasionally, it is transported out of the dairy plant for a per volume charge. One possible method to reduce the waste volume and disposal cost is to concentrate whey by foam fractionation and potentially produce a valuable coproduct, a concentrated whey protein solution. Foam fractionation is an adsorptive bubble separation method based on the hydrophobic/hydrophilic properties of proteins. In this study, foam fractionation was evaluated for the concentration of whey proteins, specifically ,-lactalbumin and ,-lactoglobulin, from a dilute whey protein solution. The effects of initial whey protein concentration (0.075 and 0.15 mg/ml), pH (3.8,5.5), superficial gas velocity (0.85 and 0.95 cm/s) and temperature (4 and 65 °C) on protein enrichment and recovery were examined. Higher enrichment was achieved with the lower initial protein concentration (0.075 mg/ml), and at pH values that were near the isoelectric points (pI) of ,-lactalbumin and ,-lactoglobulin (pH 3.8, 4.2, 4.5, and 5.2). Higher superficial gas velocity enhanced the amount of proteins recovered with a decrease in the enrichment. Cold temperature treatment and partial heat denaturation of whey proteins reduced enrichment and increased protein recovery simultaneously. Copyright © 2009 Curtin University of Technology and John Wiley & Sons, Ltd. [source]

Design of dual-purpose membrane desalination systems

ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY, Issue 3 2010
Rajindar Singh
Abstract Reverse osmosis (RO) and nanofiltration (NF) membrane plants are used extensively for brackish water desalination and industrial water purification. The operating range of RO plants is 60,80% product water recovery depending on the quality of raw water and feed water pretreatment. Typically, these plants operate at 75% recovery. The disposal of RO reject streams (20,40% of plant feed water) containing high concentration of salts is becoming an environmental problem. To reduce brine disposal costs and to increase product water recovery, several high-recovery energy-efficient membrane processes were analyzed. Generally speaking, a balance is required between brine volume reduction, capital and operating costs, energy consumption, and process simplicity. The analyses showed that up to 90% product water recovery can be achieved for low to medium brackish feed waters using RO/NF membrane systems with minimal feed water chemical pretreatment. The benefits of hybrid membrane systems integrated with fuel cell alternate energy systems are discussed. © 2009 American Institute of Chemical Engineers Environ Prog, 2010 [source]

Waste minimization techniques and options for the wet and pretreatment sections of coil coating plants

ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY, Issue 3 2004
Nicola J. Brown
Abstract Waste minimization has proven successful in recent years for many companies in reducing their raw material and utility consumption and costs as well as their waste-treatment and disposal costs. Although waste minimization opportunities can be identified through observation of plant operation practices and through application of generalized heuristic principles, many opportunities are determined only through analysis of plant data. In this study, two preassessment techniques (scoping audit and true cost of waste assessment) and two techniques for a more detailed assessment (mass balances and monitoring and targeting) were evaluated to determine whether they identified similar waste minimization opportunities on two coil coating lines. All techniques identified similar waste minimization opportunities, although the true cost of waste assessment and the monitoring and targeting analysis were found to be the most accurate in prioritizing the waste minimization opportunities. The raw material "scope to save" percentage in the scoping audit requires modification for application to South African industry. General waste minimization options for the wet and pretreatment sections of the coil coating industry are also presented. © 2004 American Institute of Chemical Engineers Environ Prog, 23: 185,193, 2004 [source]

THE USE OF TOMATO PULP POWDER AS A THICKENING AGENT IN THE FORMULATION OF TOMATO KETCHUP

JOURNAL OF TEXTURE STUDIES, Issue 2 2008
A. FARAHNAKY
ABSTRACT In this current study, tomato pulp powder, the main waste of the tomato processing industry, was used as a thickening agent in the formulation of a commercial tomato ketchup at different levels (1, 2, 5, 7 and 10% w/w). Color parameters (L and a/b) and rheologic properties of the formulated ketchups with and without added tomato pulp powder were determined and compared. The addition of the pulp powder caused a significant increase in the L value of the samples, while a/b ratio decreased notably. The rheologic data obtained were fitted using a power law equation. The analysis of the data obtained revealed that low levels of tomato pulp powder can compete with other hydrocolloids in improving the consistency of tomato ketchup. All ketchup samples in this study were non-Newtonian fluids and the apparent viscosity of the ketchups increased significantly with increasing concentration of tomato pulp powder and decreased with temperature increase. Chemical composition (protein, total fat, reducing and total sugars, fiber, ascorbic acid and ash contents) and some physicochemical properties of the tomato pulp powder, including water absorption and solubility, were determined and the data were used for the interpretation of the rheologic and color changes as a result of the inclusion of the pulp powder in the formulation. PRACTICAL APPLICATIONS The direct use of food industry wastes in food formulations can help in reducing the production costs by decreasing raw material and disposal costs. The classic design of the tomato processing plants results in generating a large amount of tomato pulp. The results of this research confirmed that tomato pulp powder can be used instead of other hydrocolloids in tomato-based products. The reuse of tomato pulp powder in foods can be beneficial to producers and the environment. [source]

T-AKE: Acquiring the Environmentally Sound Ship of the 21st Century

NAVAL ENGINEERS JOURNAL, Issue 3 2006
Cdr. Stephen P. Markle USN (Ret.) P.E.
Department of Defense (DoD) program managers are increasingly challenged with the difficulties of balancing the risks associated with cost, schedule, and performance in an era of intense competition for increasingly scarce resources. Requirements associated with environmental, safety, and health (ESH), in the context of thirty to forty-year service lives, have not been consistently, or in some cases adequately, addressed in DoD programs. Environmental protection (EP) requirements generally do not fit the normal requirements generation and product synthesis model typically applied to weapon system development. As with all requirements, early identification is the key to integration into the total system. Recognition that EP requirements must be integrated at program conception led to development of the ESH Integration Model by the U.S. Navy Lewis and Clark (T-AKE) Auxiliary Cargo Ammunition Ship Program. Institutionalization of this model has enabled the T-AKE Program to establish EP performance requirements for the twelve-ship class that substantially reduce the environmental footprint of the Navy. Compared to the fifteen ships that it will be replacing, T-AKE will require fifty percent less manning and reduce waste streams by seventy percent enabling an annual life cycle cost savings of $5M in ashore waste disposal costs. The T-AKE Program has been the first to achieve the Chief of Naval Operations vision for the "Environmentally Sound Warship of the 21st Century" through design integration of EP requirements. [source]

A factorially-designed study of physicochemical reactive dye colour removal from simulated cotton textile processing wastewaters

COLORATION TECHNOLOGY, Issue 5 2002
G Carvalho
The process performance of coagulation to remove reactive dyes from dyehouse effluent is affected by multiple factors, which can be best examined in factorially-designed experiments. A preliminary jar-test procedure was used to select coagulants and the optimal pH and coagulant dosage ranges. An inorganic salt (ferrous sulphate) and an organic polymer (DEC 50) were selected for further studies. Factorially-designed jar-test experiments were performed with different compositions of a synthetic cotton processing wastewater to determine which factors most affected colour removal and highlight interactions between them. Some additives, such as an oxidative desizing agent and a peroxide stabiliser, favoured colour removal within specific concentration ranges. The presence of sizing agents and surfactants reduced process efficiency. Increasing concentrations of ferrous sulphate could counteract this, but would result in higher sludge disposal costs. [source]