Environmental impact of screenhouse and open-field cultivation using a life cycle analysis: the case study of green bean production

2012 ◽  
Vol 28 ◽  
pp. 63-69 ◽  
Author(s):  
M. Romero-Gámez ◽  
E.M. Suárez-Rey ◽  
A. Antón ◽  
N. Castilla ◽  
T. Soriano
Keyword(s):  
Life Cycle ◽  
Environmental Impact ◽  
Open Field ◽  
Life Cycle Analysis ◽  
Green Bean

Utilization of CO2 in renewable DME fuel production: A life cycle analysis (LCA)-based case study in China

Fuel ◽  
2019 ◽  
Vol 254 ◽  
pp. 115627 ◽  
Author(s):  
Marco Tomatis ◽  
Ashak Mahmud Parvez ◽  
Muhammad T. Afzal ◽  
Sannia Mareta ◽  
Tao Wu ◽  
...  
Keyword(s):  
Life Cycle ◽  
Life Cycle Analysis ◽  
Fuel Production

scholarly journals Environmental Impact Associated with the Supply Chain and Production of Biodiesel from Jatropha curcas L. through Life Cycle Analysis

2018 ◽  
Vol 10 (5) ◽  
pp. 1451 ◽  
Author(s):  
Mario Giraldi-Díaz ◽  
Lorena De Medina-Salas ◽  
Eduardo Castillo-González ◽  
Max De la Cruz-Benavides
Keyword(s):  
Supply Chain ◽  
Life Cycle ◽  
Environmental Impact ◽  
Jatropha Curcas ◽  
Life Cycle Analysis ◽  
Jatropha Curcas L

scholarly journals Life Cycle Analysis: Assessment of Technologies for Droplet Separation – A Case Study

2021 ◽  
Author(s):  
Mandy Paschetag ◽  
André Paschetag ◽  
Florian Merkel ◽  
Christian Mehringer ◽  
Stephan Scholl
Keyword(s):  
Life Cycle ◽  
Life Cycle Analysis

Evaluation of cradle to gate environmental impact of frozen green bean production by means of life cycle assessment

2019 ◽  
Vol 236 ◽  
pp. 117638
Author(s):  
Alessio Ilari ◽  
Daniele Duca ◽  
Giuseppe Toscano ◽  
Ester Foppa Pedretti
Keyword(s):  
Life Cycle Assessment ◽  
Life Cycle ◽  
Environmental Impact ◽  
Green Bean ◽  
Cradle To Gate

scholarly journals Three eco-tool comparison with the example of the environmental performance of domestic solar flat plate hot water systems

2013 ◽  
Vol 9 (2) ◽  
pp. 174-181
Keyword(s):  
Environmental Impact ◽  
Environmental Performance ◽  
Life Cycle Analysis ◽  
Hot Water ◽  
International Standards ◽  
Huge Amount ◽  
Product Lca ◽  
Lca Practitioners ◽  
Standards And Guidelines

Life Cycle Analysis (LCA) is a procedure used as an analytical tool for the evaluation of the environmental impact caused by a material, a manufacturing process or product. For an end product, LCA requires both the identification and quantification of materials and energy used in all stages of the product’s life, together with their environmental impact. It requires therefore a huge amount of data about materials, components, manufacturing processes, energy consumption and the relevant environmental impacts. For this reason, a number of software and databases have been developed, in order to facilitate LCA users. These are the so-called Eco-Tools, used in an effort to minimize the environmental impact of a product from the materials and the energy used for production. In this paper, LCA is conducted for solar thermosyphonic systems, with the aid of three commercially available Eco-Tools, usually used by LCA practitioners, namely: Eco-It, GEMIS and SimaPro, and the results are compared. Although all three tools claim accordance with the international standards and guidelines, differences do exist. A typical solar thermosyphonic system (DSHWS) with a 4 m2 collector area and a capacity of 150 dm3 that covers the hot water needs of a three person family in Thessaloniki is used as case study. The results of the three tools are compared for each component of the solar system as well as for each material used and for the conventional energy substituted by the system.

Mitigating the Environmental Impact of Smartphones with Device Reuse

2012 ◽  
pp. 252-282 ◽  
Author(s):  
Xun Li ◽  
Pablo Ortiz ◽  
Brandon Kuczenski ◽  
Diana Franklin ◽  
Frederic T. Chong
Keyword(s):  
Information Technology ◽  
Life Cycle ◽  
Quantitative Analysis ◽  
Environmental Impact ◽  
Energy Materials ◽  
Societal Benefit ◽  
Life Cycle Stages ◽  
Elementary School Education ◽  
Manufacturing Stage

The rapid growth of information technology has not only brought substantial economic and societal benefit but also led to an unsustainable disposable model in which mobile devices are replaced in a matter of months. The environmental impact of this stream of handsets in terms of manufacturing energy, materials, and disposal costs is alarming. This chapter aims at raising today’s environmental issues of the increasing smartphone market, as well as providing a quantitative analysis on the environmental impact of different life-cycle stages of the smartphones, including the manufacturing stage, using stage, and recycling. To achieve sustainable computing and best utilize the energy consumed during manufacturing the large number of devices, this chapter demonstrates the methodology and techniques towards reusing smartphones by presenting a case study on reusing smartphones for elementary school education.

scholarly journals Life Cycle Analysis Methods on Environmental Impact Assessment (EIA) Procedures in the Perspective of Sustainable Development

2018 ◽  
Vol 74 ◽  
pp. 11003
Author(s):  
Andreas Pramudianto
Keyword(s):  
Sustainable Development ◽  
Life Cycle ◽  
Environmental Impact ◽  
Impact Assessment ◽  
Environmental Impact Assessment ◽  
Life Cycle Analysis ◽  
Environmental Science ◽  
Decision Makers ◽  
Environmental Damage ◽  
The Impact

Basically each product or service has its own life cycle. Life Cycle Analysis Method can be used to assess the impact of an activity both production and service activities. Environmental Impact Assessment (EIA) or Analisis Mengenai Dampak Lingkungan (AMDAL) is one of the activities that must be fulfilled in order to obtain an environmental permit. EIA activities have a life cycle process that needs to be known and understood so that environmental permits can be obtained. Therefore this study aims to find out the use of the LCA method in EIA procedures. In addition, with the LCA method, EIA activities are expected to be well studied according to the function of this service. LCA can provide to reduce the least impact from environmental damage. This research will be useful for the development of environmental science, especially related to the study of environmental impacts, especially EIA. It is expected that the results of the study will provide a complete picture of the relevance of the LCA method with EIA and the benefits that can be taken. The results of this study will be an important recommendation for decision makers regarding the importance of EIA in development, especially sustainable development through the method used, namely LCA.

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