Heat recovery in greenhouses: a practical solution

Rousse, Daniel R.; Martin, D. Y.; Thériault, R.; Léveillée, F.; Boily, R.

doi:10.1016/s1359-4311(99)00048-4

Cited by 40 publications

(19 citation statements)

References 5 publications

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“…Rousse et al 54 presented the theoretical and experimental analysis for using plastic heat exchanger as a dehumidifier in greenhouse for agriculture industry. With the aim to recover some of the lost heat from ventilation system, the heat exchanger was designed as corrugated and flexible thermoplastic drainage tubing with four thermoplastic tubes wrapped around a central tube (as shown in Figure 6).…”

Section: Heat Recovery Applicationmentioning

confidence: 99%

“…The testing results indicated average efficiency of 84% and 78% for air volumetric change rates of 0.5 and 0.9 change/h. Figure 6 Plastic heat exchanger cross-section 54 Because of the corrosive resistant feature, polymer heat exchangers are also applied for flue gas recovery in power generation process. An experimental study on the heat transfer performance of wet flue gas heat recovery system using a plastic longitudinal spiral plate heat exchanger was presented by Jia et al 56 .…”

Section: Heat Recovery Applicationmentioning

confidence: 99%

See 1 more Smart Citation

Recent research developments in polymer heat exchangers – A review

Chen

Reay³

et al. 2016

Renewable and Sustainable Energy Reviews

177

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Due to their low cost, light weight and corrosive resistant features, polymer heat exchangers have been intensively studied by researchers with the aim to replace metallic heat exchangers in a wide range of applications. This paper reviews the development of polymer heat exchangers in the last decade, including cutting edge materials characteristics, heat transfer enhancement methods of polymer materials and a wide range of polymer heat exchanger applications. Theoretical modelling and experimental testing results have been reviewed and compared with literature. A recent development, the polymer micro-hollow fibre heat exchanger, is introduced and described. It is shown that polymer materials do hold promise for use in the construction of heat exchangers in many applications, but that a considerable amount of research is still required into material properties, thermal performance and life-time behaviour.

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Section: Heat Recovery Applicationmentioning

confidence: 99%

Section: Heat Recovery Applicationmentioning

confidence: 99%

Recent research developments in polymer heat exchangers – A review

Chen

Reay³

et al. 2016

Renewable and Sustainable Energy Reviews

177

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show abstract

“…U radovima Abbes et al (2010), Abdel-Ghany i Kozai (2006) te Ricardo et al (2008) predstavljeni su vrlo napredni modeli koji se temelje na modelima simulacije klimatskih uvjeta u zatvorenim prostorima. Razvoj sustava grijanja i hlađenja (Ozgener i Hepbasli, 2005, Sethi i Sharma, 2007, Rousse 2000, otvara mogućnost sve većeg i isplativijeg uzgoja poljoprivrednih kultura u zaštićenim prostorima tijekom cijele godine. (2008) u svom radu proučavaju mnoge tehnike grijanja zaštićenih prostora koje koriste obnovljive izvore energije, za koje smatraju da su vrlo pogodne za korištenje u proizvodnji povrća i drugih kultura u zatvorenim prostorima.…”

Section: Proizvodnja Povrća U Zaštićenim Područjimaunclassified

Zadovoljstvo proizvođača povrća u zaštićenim površinama na području Zadarske županije

Čičin-Šain

Punoš

Milić

2017

oec

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Sažetak: U ovom radu ispituje se problematika vezana za proizvodnju povrća u zaštićenim prostorima na području Zadarske županije. Uzgoj povrća u zaštićenim prostorima u posljednje vrijeme doživljava ekspanziju u svijetu, a naročito u područjima koji gravitiraju mediteranskom bazenu. U skladu s tim, rad se bavi mogućnostima koje ima Zadarska županija u proizvodnji povrća u zaštićenim prostorima. Temelj ovog rada je istraživanje koje je vezano za ispitivanje stavova proizvođača povrća u zaštićenim prostorima na području Zadarske županije o prednostima i nedostacima ovakvog načina proizvodnje. Rezultati dobiveni u ovom istraživanju ukazuju na probleme i mogućnosti s kojima se susreću sadašnji i potencijalni uzgajivači povrća u Zadarskoj županiji.

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“…using higher humidity set points (Elings et al, 2005); reducing the transpiration level of the crop, or dehumidification with heat recovery (Campen and Bot, 2002;Rousse et al, 2000).…”

Section: Minimize Energy Loss Through Ventilation and Latent Heatmentioning

confidence: 99%

Innovative Technologies for an Efficient Use of Energy

Bakker¹,

Adams²,

Boulard³

et al. 2008

Acta Hortic.

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Efficient use of energy in greenhouses has been subject of research and development for decades. The final energy efficiency, e.g. the amount of energy used per unit of product, is determined by improvements in energy conversion, reductions in energy use for environmental control and the efficiency of crop production. The new European targets on reduction of CO 2 emission have resulted in a renewed interest in innovative technologies to improve energy efficiency in greenhouses designed for North-as well as South European regions. In this paper an overview of the recent developments is presented from both the Northwest European as well as the Mediterranean perspective. The developments range from new modified covering materials, innovative and energy conservative climate control equipment and plant response based control systems, to integrated energy efficient greenhouse designs.

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Heat recovery in greenhouses: a practical solution

Cited by 40 publications

References 5 publications

Recent research developments in polymer heat exchangers – A review

Recent research developments in polymer heat exchangers – A review

Zadovoljstvo proizvođača povrća u zaštićenim površinama na području Zadarske županije

Innovative Technologies for an Efficient Use of Energy

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