Characterization of cooling loads in the wine industry and novel seasonal indicator for reliable assessment of energy saving through retrofit of chillers

Catrini, Pietro; Panno, Domenico; Cardona, Fabio; Piacentino, Antonio

doi:10.1016/j.apenergy.2020.114856

Cited by 22 publications

(15 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, in the water temperature control of chillers, when the supply temperature of chilled water and the return temperature of cooling water are constantly set, the values of COP change with the variations of cooling load. The optimal COP value of chiller which normally does not appear at full-load condition, may flexibly fluctuate in a range (e.g., 70%–80%) of PLR curve [ 33 , 34 ]. The control logic for chiller sequencing/switch on/off control and water temperature control is to reach to the optimal COP value and obtain the optimal operation cost, on the basis of cooling load characteristics and cooling demand satisfaction.…”

Section: Operation Control Strategies For Hub Airport Terminalsmentioning

confidence: 99%

Strategical district cooling system operation in hub airport terminals, a research focusing on COVID-19 pandemic impact

Yan

Yang²,

He³

et al. 2022

Energy

View full text Add to dashboard Cite

Section: Operation Control Strategies For Hub Airport Terminalsmentioning

confidence: 99%

Strategical district cooling system operation in hub airport terminals, a research focusing on COVID-19 pandemic impact

Yan

Yang²,

He³

et al. 2022

Energy

View full text Add to dashboard Cite

“…The study resulted in a reduction of energy consumption of 39.6%, when compared to a traditional room air conditioner. Catrini et al 36 performed a study on saving energy in the food industry, more specifically the wine industry. By retrofitting the chillers used in this assessment, it was concluded that the use of standard seasonal indicators leads to 56.9% and 83.9% overestimation of potential energy savings, for low and medium temperature cooling energy uses, respectively.…”

Section: Literature Reviewmentioning

confidence: 99%

A new approach to increase the environmental sustainability of the discharging process in the over-injection of conduits for bowden cables using automation

Penne

Silva

Campilho

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

The industry of automotive components is highly competitive. Polymer injection, used to over-mould conduits, is used to produce the necessary connections between the end of the Bowden cables and the car parts where they need to be assembled. Depending on the vehicle or the use, there will be a different connection of the conduit. The industry continuously looks for greener and more sustainable solutions. This study presents a strategy to save energy in polymer over-injection moulding. The developed concept consists of replacing the previous moulding system by a custom automatic one, using two more compact injection machines and automation, allowing for increased productivity and sustainability, all while retaining operators’ jobs. An application of the novel methodology is presented, reporting an energy consumption reduction of about 80% and an increase of 12% in production rate. With this work, the benefits of automation for overcoming sustainability and productivity problems are highlighted. Furthermore, the developed strategy may be applied to other production processes, regarding the injection of small parts in large quantities for a variety of materials.

show abstract

“…The assessment of the actual energy demands of the cellar is the first fundamental step for any proper energy audit. In the wine-making sector this is not an easy task because, as highlighted also in [13], the energy demands are strongly variable on seasonal and daily bases, and a direct measurement of the consumption of the many involved devices would be too expensive (the only available information on consumptions usually derives from monthly or annual bills). To this end, the main steps of the wine production have been deeply analyzed (Section 2.1) to obtain as accurate as possible consumption profiles of each step, and therefore of the entire process (Section 2.2).…”

Section: Wine Making Process and Associated Energy Demandsmentioning

confidence: 99%

“…where ϕ in,i (t) is the energy flow (power) associated with the main input to a unit (fuel), ϕ out,i (t) is the energy flow (power) associated with the main ouptut of the unit (product), ϕ MAX out,i and ϕ MIN out,i are the maximum and minimum loads of the unit, respectively, K1 i and K2 i are (usually positive) parameters depending on the type and features of the energy conversion unit, and δ i (t) is a binary variable that identifies the on/off status of the unit. When δ i (t) = 0, Equations (12) and (13) give ϕ i,out (t) = 0 and so Equation (11) gives ϕ i,in (t) = 0, i.e., the unit is off. When δ i (t) = 1, Equations (12) and (13) let ϕ i,out (t) vary within the range of possible loads and the fuel consumption is calculated by Equation (11), i.e., the unit is on.…”

Section: Operation Of Energy Conversion Unitsmentioning

confidence: 99%

“…De Bortoli [11] and Paolino [12] analyzed in detail the design of machineries utilized in a traditional wine cellar. Catrini et al [13] proposed a new procedure to obtain reliable profiles for cooling needs of medium-scale wine cellars. The final goal is to have a precise basis for the assessment of the energy saving that can be achieved by installing more efficient compression chillers.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Choice of the Optimal Design and Operation of Multi-Energy Conversion Systems in a Prosecco Wine Cellar

Pivetta

Rech²,

Lazzaretto

2020

Energies

View full text Add to dashboard Cite

Despite the high energy consumption of wine making processes, little efforts have been spent so far, both at the industrial and scientific level, to search for alternative energy systems in wine cellars. In fact, almost all the existing cellars take electricity from the grid and burn natural gas or other fossil fuels to fulfil their energy demands. This paper analyses the energy demands of a real Prosecco wine cellar in the North East of Italy, which can be considered as a “reference” cellar for dimensions and wine production. The goal is to find the best energy conversion system in terms of maximum profits, efficiency and share of renewable energy utilization. Four alternative design configurations are proposed, and each one optimized considering the three objectives. Results show that a 35% gain in the maximum profits is obtained by including a natural gas fueled CHP internal combustion engine and an absorption chiller. This configuration is also the best one to achieve the maximum efficiency (61%), resulting in 18% reduction of primary energy consumption. Conversely, the utilization of a biomass boiler and an absorption chiller allows maximizing the share of renewable energy consumption, which is about 35% considering the existing availability of biomass from pruning harvesting and the relative limited surface available for photovoltaic generation. This option may become economically interesting when the price of natural gas increases of at least 50%.

show abstract

Characterization of cooling loads in the wine industry and novel seasonal indicator for reliable assessment of energy saving through retrofit of chillers

Cited by 22 publications

References 33 publications

Strategical district cooling system operation in hub airport terminals, a research focusing on COVID-19 pandemic impact

Strategical district cooling system operation in hub airport terminals, a research focusing on COVID-19 pandemic impact

A new approach to increase the environmental sustainability of the discharging process in the over-injection of conduits for bowden cables using automation

Choice of the Optimal Design and Operation of Multi-Energy Conversion Systems in a Prosecco Wine Cellar

Contact Info

Product

Resources

About