Evaluation of the Energy Supply Options of a Manufacturing Plant by the Application of the P-Graph Framework

Éles, András; Halász, László; Heckl, István; Cabezas, Heriberto

doi:10.3390/en12081484

Cited by 10 publications

(4 citation statements)

References 30 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The versatile use of biogas as well as the production of valuable bio-fertiliser will play a key role in the agricultural chain. However, there are ambiguous facets not clearly investigated, namely the case of multiple waste streams, microbiome, or end-products (Baek et al, 2018; Éles et al, 2019; Huang et al, 2017; Koç et al, 2019; Owczuk et al, 2019; Xu et al, 2017).…”

Section: Resultsmentioning

confidence: 99%

Elevated biogas production from the anaerobic co-digestion of farmhouse waste: Insight into the process performance and kinetics

Achinas

Euverink

2019

Waste Manag Res

View full text Add to dashboard Cite

The biodegradable portion of solid waste generated in farmhouses can be treated for energy recovery with small portable biogas plants. This action can be done across the Netherlands and all around the planet. This study aims to appraise the performance of anaerobic digestion of different wastes (cow manure, food waste and garden waste) obtained from a regional farmhouse. Batch reactors were established under mesophilic conditions in order to investigate the impact of ternary mixtures on the anaerobic digestion process performance. Different mixing ratios were set in the batch tests. The upshots from the experiments connoted that ternary digestion with cow manure:food waste:garden waste mixing ratio of 40:50:10 yielded higher biogas amount. The kinetics’ results showed quite good congruence with the experimental study. The results from the kinetic analysis appeared to be in line with the experimental one.

show abstract

Section: Resultsmentioning

confidence: 99%

Elevated biogas production from the anaerobic co-digestion of farmhouse waste: Insight into the process performance and kinetics

Achinas

Euverink

2019

Waste Manag Res

View full text Add to dashboard Cite

show abstract

“…These two examples focus only on hydrogen and power production. Energy supply optimization may also consider other renewable energy sources simultaneously, e.g., solar power [11,12]. On the other hand, if optimization takes place from a supply chain perspective, individual technologies are often simplified and considered as black box operations.…”

Section: Biomass-based Energy Supplymentioning

confidence: 99%

Modeling of a Biomass-based Energy Production Case Study Using Flexible Inputs with the P-Graph Framework

Éles,

Heckl,

Cabezas

2023

Preprint

View full text Add to dashboard Cite

In this work, a modeling technique utilizing the P-Graph framework was used for a case 1 study involving biomass-based local energy production. In recent years, distributed energy systems 2 gained attention. These systems aim at satisfying energy supply demands, supporting the local 3 economy, decreasing transportation needs and dependence on imports, and in general obtaining a 4 more sustainable energy production process. Designing such systems is a challenge, for which novel 5 optimization approaches were developed to help decision-making. Previous work used the P-Graph 6 framework to optimize energy production in a small rural area, involving manure, intercrops, grass, 7 and corn silage as inputs, and fermenters. Biogas is produced in fermenters, and Combined Heat 8 and Power (CHP) plants provide heat and electricity. A more recent result introduced the concept of 9 operations with flexible inputs in the P-Graph framework. In this work, the concept of flexible inputs 10 was applied to model fermenters in the original case study. A new implementation of the original 11 decision problem was made both as a Mixed-Integer Linear Programming (MILP) model and as a 12 purely P-Graph model by using the flexible input technique. Both approaches provided the same 13 optimal solution, with a 31% larger profit than originally reported.

show abstract

“…In addition, the supply mode, investment, operating costs, and longterm efficiency also need to be considered. Éles et al [23] made full use of the process network design and the comprehensive P-graph framework to reflect the equipment capacity and investment ratio. Aviso and Tan [24] obscured product demand and fuel availability in cogeneration and trigeneration systems.…”

Section: Related Workmentioning

confidence: 99%

Solutions selection based on the P‐graph integrated data envelopment analysis for material scheduling in the ethylene production

Cao

Zhu

2021

Can J Chem Eng

View full text Add to dashboard Cite

Material scheduling is significant in the ethylene production process. However, factors such as the production scale and the technology also affect the choice of material scheduling solutions. Therefore, this paper proposes a novel P-graph methodology integrated data envelopment analysis (DEA) for the solutions selection of material scheduling. First, based on the basic procedure, a scheduling superstructure model expanding from the time dimension is built. With the cost as the objective function, the optimal and partially feasible scheduling solutions are generated based on the P-graph, and the results are analyzed in detail with reference to ISA-95. Then the DEA is used to analyze the indicators of material consumption and product yields to give a selection strategy from the input-output perspective. The optimal solution and suboptimal solution sets are evaluated and analyzed, and decision making units (DMUs) with the highest score are calculated. Based on the scheduling solution with the highest score and relatively low cost, the potential adjustment of other solution is also given.Finally, a complete base of material scheduling solution has been implemented, which provides more references for decision makers. This paper considers the lowest cost as the goal and gives a more suitable alternative from the perspective of input-output efficiency in combination with the actual production conditions, which is a good extension of the P-graph.

show abstract

Evaluation of the Energy Supply Options of a Manufacturing Plant by the Application of the P-Graph Framework

Cited by 10 publications

References 30 publications

Elevated biogas production from the anaerobic co-digestion of farmhouse waste: Insight into the process performance and kinetics

Elevated biogas production from the anaerobic co-digestion of farmhouse waste: Insight into the process performance and kinetics

Modeling of a Biomass-based Energy Production Case Study Using Flexible Inputs with the P-Graph Framework

Solutions selection based on the P‐graph integrated data envelopment analysis for material scheduling in the ethylene production

Contact Info

Product

Resources

About