Modeling of Heat Transfer Coefficient in Solar Greenhouse Type Drying Systems

Çerçi, Kamil Neyfel; Daş, Mehmet

doi:10.3390/su11185127

Cited by 29 publications

(16 citation statements)

References 51 publications

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“…Here, we aimed at developing a simple, cost-effective, but efficient system for protecting mature brown garden snails, C. aspersum , during the winter months. We first tested different types of protective structures built from materials with good thermal insulation properties that were easily available and cost-effective, more precisely high-density polyethylene (HDPE), straw, and LFC [ 22 , 23 , 24 ]. The most suitable system was then applied under real farm conditions.…”

Section: Introductionmentioning

confidence: 99%

The “Sandwich” System: A Potential Solution for Protecting Overwintering Cornu aspersum Snails Reared in Semi-Intensive Heliciculture Farms in Colder Climates

Manea

Ienciu

Ștef

et al. 2021

Animals

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(1) Background: Hibernation in pens covered with LFC was associated with high mortality of C. aspersum snails in Romanian snail farms. This three-year study aimed to develop a simple, but effective system for protecting breeders in colder climates. (2) Methods: The first phase investigated the (pre)hibernal burrowing behavior and the overwintering habitat choice. Protective structures based on straw, LFC, and/or HDPE were tested at pilot level (no snails). The most suitable system was applied under farm conditions. (3) Results: Wood and ridge-tile micro shelters were significantly preferred to corrugated iron micro shelters. Burrowing specimens acted as shallow-burrowers, and this behaviorwas significantly more common for looser soils. All pilot systems displayed significantly higher thermal protection efficiency compared to the sole use of LFC. The balance between straw moistening and thermal protection favored using structure soil/LFC/straw/10-cm air cushion/HDPE. Its use yielded significantly higher survival compared to the sole use of LFC. Most hibernating snails clustered together in large groups, attached on the lower surface of micro shelters. Predator occurrence appeared to marginally affect overwintering survival. (4) Conclusions: The “sandwich” system could be an effective solution for overwintering mature C. aspersum snails in colder climates.

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Section: Introductionmentioning

confidence: 99%

The “Sandwich” System: A Potential Solution for Protecting Overwintering Cornu aspersum Snails Reared in Semi-Intensive Heliciculture Farms in Colder Climates

Manea

Ienciu

Ștef

et al. 2021

Animals

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“…Kurutmada hava hızının artmasıyla birlikte konvektif ısı transferinde bir artış olduğu gözlenmiştir [24]. Sistemdeki sıcaklığın değişmesi ile, artan türbülans ısı ve kütle transferine neden olmaktadır [25]. Güneş kurutucularda bir simülasyon veya sayısal yaklaşım kullanarak enerji ve sistemin çeşitli konumlarındaki sıcaklık ve hız profillerini değerlendirmek ve içeride daha yüksek sıcaklıkta düzgün bir hava akışı elde etmek mümkündür [26].…”

Section: Introductionunclassified

Drying of Paint Sludge Using Paraffin in Solar Drying Systems

Amin¹,

YÜKSEL²,

Salihoğlu³

et al. 2021

Düzce Üniversitesi Bilim Ve Teknoloji Dergisi

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Güneş kurutucu sistemi, ileri bir doğal güneş kurutma teknolojisi olarak geniş alanlardada kullanılmaktadır. Bu çalışmanın amacı; atık boya çamurunun yönetimi sürecinde güneşle kurutmayı alternatif bir proses olarak incelemektir. Çalışmada faz değiştirme malzemesi olarak parafin içeren bir güneş kurutma sistemi tasarlanarak kurutma verimliliği araştırılmıştır. Kurutulan çamur kalınlığının düşük olması sebebiyle kurutma sırasında karıştırmanın etkisi gözlenememiştir. Kurutma işlemi 8 saatte 1849 Wh/m 2 kümülatif güneş radyasyonu ile yapılmıştır. İç sıcaklık, nem, güneş radyasyonu, zaman, çamur kütlesi ve hacmini azaltmanın yanı sıra kurutucuda kullanılan ekipmanlar ısı transferini güçlendirmek için önemli faktörler olarak belirlenmiştir. Sistemde fan ile oluşturulan hava sirkülasyonunun yetersiz olduğu hesaplamalı akışkanlar dinamiği (HAD) ile tespit edilmiştir, ve simülasyon modeli kurutma sisteminin optimize edilmesi için kullanılmıştır. Gözenekli yapının oluşumu, bir tarama elektron mikroskobu (SEM) kullanılarak kurutulmuş çamurda gözlenmiştir. Atık boya çamurunun yönetiminde güneş kurutucusunun geliştirilmeler sonrası kullanılabilecek bir alternatif olduğu sonucuna varılmıştır.

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“…With the consumption of the Earth's natural resources and the deterioration of the climate environment, solar energy is expected to be the most used energy source by 2050 [4]. As a renewable energy source, the use of solar energy plays a crucial role in keeping sustainability, which, in turn, is the key to meeting the developmental needs of future generations [5][6][7][8]. However, as a typical efficient utilization industry of solar energy, solar energy utilization in CSG production is far from sufficient [9].…”

Section: Introductionmentioning

confidence: 99%

Effects of orientation and structure on solar radiation interception in Chinese solar greenhouse

Zhang

et al. 2020

PLoS ONE

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In order to further improve the utilization of solar energy in Chinese Solar Greenhouse (CSG), this paper systematically studied the effects of orientation and structure on solar radiation interception in CSG. A solar radiation model has been developed based on the previous research, which taking solar motion law, meteorological data, and optical properties of materials into consideration. The established model was used to optimize the orientation and structure of CSG. The analysis of structure considered two major structural parameters, which are the ridge height and the horizontal projection of the rear roof. Moreover, the widely used Liao-Shen type Chinese solar greenhouse (CSG-LS) has been taken as the prototype in the present research, and the measured data of the typical clear day was used for the model validation. The results showed that the ridge height has a remarkable influence on the solar energy captured by CSG-LS. Compared with the optimization of a single factor, the comprehensive optimization of orientation and structure can increase the solar radiation interception of the rear wall by 3.95%. Considering the limiting factor of heat storage-release capacity and the shading effect on the greenhouse structure, the optimal lighting construction of the CSG-LS (with a span of 9.0 m) was specified as 7~9° from south to west of azimuth angle, 4.5~4.7 m ridge height, and 1.4~1.6 m horizontal projection of the rear roof at 42°N latitude. The proposed solar radiation model can provide scientific guidance for the CSG-LS construction in different areas.

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Modeling of Heat Transfer Coefficient in Solar Greenhouse Type Drying Systems

Cited by 29 publications

References 51 publications

The “Sandwich” System: A Potential Solution for Protecting Overwintering Cornu aspersum Snails Reared in Semi-Intensive Heliciculture Farms in Colder Climates

The “Sandwich” System: A Potential Solution for Protecting Overwintering Cornu aspersum Snails Reared in Semi-Intensive Heliciculture Farms in Colder Climates

Drying of Paint Sludge Using Paraffin in Solar Drying Systems

Effects of orientation and structure on solar radiation interception in Chinese solar greenhouse

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