Your search keyword '"Varabuntoonvit, Viganda"' showing total 5 results

1. Life cycle assessment of perovskite solar cells with alternative carbon electrode.

Author

Chaosukho, Supawinee, Meeklinhom, Sorrawit, Rodbuntum, Sasiphapa, Sukgorn, Nuttaya, Kaewprajak, Anusit, Kumnorkaew, Pisist, and Varabuntoonvit, Viganda

Subjects

PRODUCT life cycle assessment, SOLAR cells, CARBON electrodes, CLEAN energy, GOLD electrodes, PEROVSKITE, SUCCESSIVE approximation analog-to-digital converters

Abstract

Perovskite solar cells (PSCs), a promising third-generation photovoltaic technology, have drawn considerable attention. Yet, their conventional metal back electrode layer, often composed of gold or silver, presents environmental and stability challenges. In this study, we conducted a lab-scale optimization of perovskite solar cells utilizing gold and carbon electrodes. A cradle-to-gate life cycle assessment (LCA) was performed using primary data from Thailand's National Nanotechnology Center (NANOTEC) and the Sima Pro 9.3.0.2 software with the ReCiPe 2016 impact methodology, consisting of 18 midpoint and three endpoint impact categories. Our analysis reveals that transitioning from gold electrodes (PSC-Au) to carbon electrodes (PSC-CB) fabricated through a low-temperature process not only maintains equivalent power conversion efficiency but also enhances stability, resulting in significantly reduced environmental impacts across all categories, with an impressive 86% reduction in global warming potential (GWP) per 1 kWh of energy produced. Furthermore, sensitivity analysis underscores PSC-CB's superiority in GWP compared to other established renewable energy technologies, provided its operational lifespan extends to 15 years. These findings highlight PSC-CB's substantial potential for commercialization as a sustainable renewable energy technology. • Cradle-to-Gate LCA for the same architecture and performance of PSCs between the Gold electrode and Carbon electrode • Thermal evaporation and gold material loss in the process were indicated as hotspot and commercialization barriers • Carbon electrodes cut environmental impact by over 79% or an average of 93.9% across all categories versus gold electrodes • PSCs with carbon electrodes surpass other renewables in global warming impact when a device lifespan exceeding 15 years [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of magnetic field on CO2 conversion over Cu-ZnO/ZrO2 catalyst in hydrogenation reaction.

Author

Piriyawate, Nuttanun, Varabuntoonvit, Viganda, Donphai, Waleeporn, Witoon, Thongthai, Chareonpanich, Metta, and Jantaratana, Pongsakorn

Subjects

CARBON dioxide, HYDROGENATION, CATALYSTS

Abstract

Based on green and sustainable innovation with efficient utilization concepts for enhancement of catalyst performance and energy conservation, an external magnetic field has been applied in CO 2 hydrogenation reaction in order to improve catalytic activity and reduce the energy consumption. In this research, the performances of Cu-ZnO/ZrO 2 catalyst under magnetic field with different magnetic field intensities (0, 20.8, and 27.7 mT) and orientations (north-to-south (N-S) and south-to-north (S-N) directions) in CO 2 hydrogenation were investigated. Cu-ZnO/ZrO 2 catalysts operated under magnetic field gave higher CO 2 conversions, compared to that of without magnetic field at all reaction temperatures. The highest CO 2 conversions were obtained under the magnetic field condition at 20.8 mT in S-N direction which was 1.8–3.0 times higher than that of without magnetic field. Accordingly, the operating temperatures were significantly lower than those of without magnetic field at the same reaction rate. This outstanding performance could be attributed to the fact that the external magnetic field facilitated adsorption of CO 2 reactant gas molecules over the surface of magnetized catalysts. Accordingly, the challenge in application of magnetic field in CO 2 hydrogenation process help reduce CO 2 emission into the atmosphere compared to the convention reactor, and therefore led to the carbon-neutral CO 2 conversion process. [ABSTRACT FROM AUTHOR]

Published

2016

3. Effect of magnetic field on CO2conversion over Cu-ZnO/ZrO2catalyst in hydrogenation reaction

Author

Donphai, Waleeporn, Piriyawate, Nuttanun, Witoon, Thongthai, Jantaratana, Pongsakorn, Varabuntoonvit, Viganda, and Chareonpanich, Metta

Abstract

•Magnetic field intensity and orientation affected activity of Cu-ZnO/ZrO2catalyst.•Activation energy with magnetic field was lower than that of w/o magnetic field.•Magnetic field reduced operating temperature and CO2emission during the reaction.•Magnetic field-assisted system was green and carbon-neutral CO2conversion process.

Published

2016

4. Life Cycle Inventory Data Development for Greenhouse Gas Emissions of Thailand's Electricity Grid Generation Systems

Author

Varabuntoonvit, Viganda, Sadamichi, Yucho, Kato, Seizo, and Mungcharoen, Thumrongrut

Abstract

LCA (Life Cycle Assessment) is a well known methodology to assess the impact on the environment over the life cycle of a product, process, or activity. This methodology is based on the LCI (Life Cycle Inventory) database, a data set of all resources (material and energy) that are consumed or emitted in order to produce 1 unit of the product. Because electricity is a basic infrastructure, a Thailand electricity grid LCI database is needed to assess the environmental impact not only for the product used in Thailand, but also for any product that is exported to other countries. A complete LCI database for the electricity grid in Thailand is not yet available, and the LCI database developed in this work applies from the fuel acquisition stage to the production stage. The analysis shows the unique characteristics of the Thailand electricity grid. An LCI database for each type of fuel and for each electricity generation system was developed. The characteristics of each type of fuel and electricity generation system are indicated in terms of Life Cycle GHG (Greenhouse Gas) emissions to reflect their global warming potential. Data on the Life Cycle GHG emission per kWh of electricity produced are also provided. The first Thailand LCI database for the fuels used in the electricity generation system was developed using data obtained from the EGAT (Electricity Generating Authority of Thailand), IPPs (Independent Power Producers), and PTT (Petroleum Authority of Thailand) during the Thai fiscal year 2005 (from October 2004 to September 2005). The database was used to analyze the current situation and the characteristics of the electricity generation system in Thailand and to compare it with the systems used in other developed countries.

Published

2008

5. Life Cycle Inventory Data Development for Greenhouse Gas Emissions of Thailand's Electricity Grid Generation Systems

Author

Varabuntoonvit, Viganda, Sadamichi, Yucho, Kato, Seizo, and Mungcharoen, Thumrongrut

Abstract

LCA (Life Cycle Assessment) is a well known methodology to assess the impact on the environment over the life cycle of a product, process, or activity. This methodology is based on the LCI (Life Cycle Inventory) database, a data set of all resources (material and energy) that are consumed or emitted in order to produce 1 unit of the product. Because electricity is a basic infrastructure, a Thailand electricity grid LCI database is needed to assess the environmental impact not only for the product used in Thailand, but also for any product that is exported to other countries. A complete LCI database for the electricity grid in Thailand is not yet available, and the LCI database developed in this work applies from the fuel acquisition stage to the production stage. The analysis shows the unique characteristics of the Thailand electricity grid. An LCI database for each type of fuel and for each electricity generation system was developed. The characteristics of each type of fuel and electricity generation system are indicated in terms of Life Cycle GHG (Greenhouse Gas) emissions to reflect their global warming potential. Data on the Life Cycle GHG emission per kWh of electricity produced are also provided. The first Thailand LCI database for the fuels used in the electricity generation system was developed using data obtained from the EGAT (Electricity Generating Authority of Thailand), IPPs (Independent Power Producers), and PTT (Petroleum Authority of Thailand) during the Thai fiscal year 2005 (from October 2004 to September 2005). The database was used to analyze the current situation and the characteristics of the electricity generation system in Thailand and to compare it with the systems used in other developed countries.

Published

2008