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Electronic Resource

Workplace solutions (1999)

Bell, Stephen M. ; Anderson, Marty

London : Emerald

Journal ofcorporate real estate 1 (1999), S. 349-360

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ISSN: 1463-001X

Source: Emerald Fulltext Archive Database 1994-2005

Topics: Economics

Notes: Real estate professionals are recognising the positive impact they can have on their corporation'scompetitiveness by providing workplace solutions that enhance individual and team performance. To develop successfully workplace solutions that meet both today's and tomorrow's needs of the organisation, the workplace design process must incorporate new ways of thinking about work; include team members who until recently were not involved in workplace design; and provide physical solutions that meet the definition of 'agile' (easily adaptable, flexible, and varied) environments. This paper discusses the evolution of work and the changes that have occurred in the workplace in an effort to meet these new workplace needs. The traditional models used for programming and planning the physical environment are no longer effective when dealing with workplaces for today's knowledge workers. The importance of developing new processes for identifying 'tomorrows' workplace requirements; the team members who must be involved to develop and implement these new solutions successfully; and the types of physical environments that must be created in order to enhance workplace and worker performance are all integral in the development of the high performanceworkplace.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1108/14630019910811132

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Preparation and Characterization of Novel Magnesium Composite/Walnut Shells-Derived Biochar for As and P Sorption from Aqueous Solutions (2021)

Frišták, Vladimír ; Pipíška, Martin ; Turčan, Vladimír ; [et al.]

Molecular Diversity Preservation International

In: Agriculture. 2021; 11(8): 714. Published 2021 Jul 28. doi: 10.3390/agriculture11080714.

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Publication Date: 2021-07-28

Description: Elevated or unnatural levels of arsenic (As) and phosphorus (P) concentrations in soils and waterbodies from anthropogenic sources can present significant hazards for both natural ecosystems and human food production. Effective, environmentally friendly, and inexpensive materials, such as biochar, are needed to reduce mobility and bioavailability of As and P. While biochar features several physicochemical properties that make it an ideal contaminant sorbent, certain modifications such as mineral-impregnation can improve sorption efficiencies for targeted compounds. Here, we conducted sorption experiments to investigate and quantify the potential utility of magnesium (Mg) for improving biochar sorption efficiency of P and As. We synthesized a Mg-modified walnut shells-derived biochar and characterized its ability to remove As and P from aqueous solutions, thereby mitigating losses of valuable P when needed while, at the same time, immobilizing hazardous As in ecosystems. SEM-EDX, FTIR and elemental analysis showed morphological and functional changes of biochar and the formation of new Mg-based composites (MgO, MgOHCl) responsible for improved sorption potential capacity by 10 times for As and 20 times for P. Sorption efficiency was attributed to improved AEC, higher SSA, chemical forms of sorbates and new sorption site formations. Synthetized Mg-composite/walnut shell-derived biochar also removed 〉90% of P from real samples of wastewater, indicating its potential suitability for contaminated waterbody remediation.

Electronic ISSN: 2077-0472

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Published by Molecular Diversity Preservation International

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The Use of Biochar and Pyrolysed Materials to Improve Water Quality through Microcystin Sorption Separation (2020)

Frišták, Vladimír ; Laughinghouse, H. Dail ; Bell, Stephen M.

Molecular Diversity Preservation International

In: Water. 2020; 12(10): 2871. Published 2020 Oct 15. doi: 10.3390/w12102871.

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Publication Date: 2020-10-15

Description: Harmful algal blooms have increased globally with warming of aquatic environments and increased eutrophication. Proliferation of cyanobacteria (blue-green algae) and the subsequent flux of toxic extracellular microcystins present threats to public and ecosystem health and challenges for remediation and management. Although methods exist, there is currently a need for more environmentally friendly and economically and technologically feasible sorbents. Biochar has been proposed in this regard because of its high porosity, chemical stability, and notable sorption efficiency for removing of cyanotoxins. In light of worsening cyanobacterial blooms and recent research advances, this review provides a timely assessment of microcystin removal strategies focusing on the most pertinent chemical and physical sorbent properties responsible for effective removal of various pollutants from wastewater, liquid wastes, and aqueous solutions. The pyrolysis process is then evaluated for the first time as a method for sorbent production for microcystin removal, considering the suitability and sorption efficiencies of pyrolysed materials and biochar. Inefficiencies and high costs of conventional methods can be avoided through the use of pyrolysis. The significant potential of biochar for microcystin removal is determined by feedstock type, pyrolysis conditions, and the physiochemical properties produced. This review informs future research and development of pyrolysed materials for the treatment of microcystin contaminated aquatic environments.

Electronic ISSN: 2073-4441

Topics: Energy, Environment Protection, Nuclear Power Engineering