An experimental and numerical study of cold air distribution systems

Hu, Shicheng

January 1998

No description available.

697

Air conditioning; Cooling; Air movement

Internal environment of badger (Meles meles) setts

Moore, Jude Arthur Hamilton

January 1997

No description available.

577

An investigation into flow in confined environments using laser doppler anemometry and computational fluid dynamics

Millard, Deborah J.

January 1996

No description available.

532

EVALUATION OF AIR MOVEMENT IN EQUESTRIAN FACILITIES AND ON EQUINE ATHLETES

McGill, Staci Elaine

01 January 2019

Ventilation and air movement are important aspects of animal agriculture and is frequently neglected in equine facilities. This paper discusses three different studies that examine different components of ventilation and air movement. One is a fan orientation study which examines how fans impact the stall environment, the second is a cooling study questioning whether forced air speed across a horse increases the rate of cool out after intense exercise, and the last is a survey examining ventilation, air quality, and health concerns in indoor arenas. The stall fan study took place over two summers with the goal of determining how the placement and orientation of different fans impacted the temperature within the stall, the air movement around the stall, and if the fans could provide fly control. Two barns with vastly different designs and natural ventilation properties were used. The barn in the first year had good natural ventilation, while the barn in the second year did not. Overall, the fans had little to no effect on reducing the temperature within the stalls, providing air movement throughout the stall, and did not produce sufficient air movement for fly control. After intense exercise such as a running a race, cross country, or participating in an endurance race, it is necessary to cool the horses and bring their vital signs back to resting ranges. The predominant method for this is hand walking or drenching and scraping the horses until the heart rate, respiration rate, and rectal temperature have returned to an acceptable level. The cooling study sought to examine whether providing forced air speed across the horses increased their rate of cool out through placing a Bannon Tilted Belt Drive 42 in drum fan around the horses during the drenching period of their cool out process. Heart rate, respiration rate, and rectal temperature were all monitored throughout the cool out process and the rate of return to resting values of the vital signs was used to determine the effectiveness of the cooling techniques. The presence of the fan and the air speed across the horses tended to increase their rate of cool out after exercise with the fan blowing from the hindquarters towards their head provided the greatest increase. Finally, the indoor arena study included an online survey and site visits with the purpose of gathering information regarding indoor arenas. As this is an under-researched topic, the goal of this study was to establish common characteristics, identify problems or issues within the facilities, and any health concerns for the horses and humans who use the facilities. The information gathered in this study covered a multitude of topics including arena construction and design, arena usage, footing type, maintenance practices, environmental concerns, and potential health issues within the facilities. This study will serve as the framework to build future research studies to examine and rectify issues within the facilities and, ultimately, provide design recommendations for building or retrofitting indoor arenas to mitigate or eliminate concerns.

Equine

Equine Facilities

Air Movement

Cooling

Fans

Indoor Arena

Agriculture

Bioresource and Agricultural Engineering

Engineering

Inner 'Green' Space A Study of Conservationism in Atrium Spaces Using Academic Buildings in Southern Ontario

Smith, Barry+"Warren"+"Jr."

January 2008

Since taking hold in the mid 1960s, the modern atrium has become prevalent in many designs and buildings within contemporary architecture. The modern day atrium has endured to find its place amidst our current technologies and design aspirations by continuing to offer a capacity for assisting in urban strategies, providing strong economic returns on investment, conserving or recycling existing buildings, and for its potential to reduce energy consumption. Today, as concerns for energy and the environment rise to prominence within contemporary opinion, the reliance on more integrated conservational design strategies such as what the atrium offers in the matter of material and energy conservation is more relevant than ever. Yet simply including an atrium space within a building does not guarantee its effectiveness in realizing the potential for sustainable design. By selecting to survey a collection of recently completed academic buildings in Southern Ontario, the thesis aimed to examine what current reality exists in our use of the atrium with regards to its conservational characteristics. By examining the atrium’s ability to integrate sustainable design strategies in three areas: the adaptation into existing buildings and flexible program space; the use of effective daylighting; and the provisions to manage passive air handling; the thesis identified what conservational attributes are present and how often these functions are accomplished within the atrium designs of the selected study group of buildings. Overall it was found that the current trends of conservationism in atria of the studied academic buildings are constant, that is, they do not exhibit growth proportional to the increasing awareness of ‘green’ and sustainable thinking seen in today’s culture. Furthermore, the thesis closes with a concluding critique, providing a discussion surrounding the belief that though the atrium is a possible material and energy conservational tool, much of its success can be attributed to the meticulous planning and holistic approach involved in the execution of successfully resolved atria designs.

atrium (architecture)

sustainability

conservationism

air movement

daylighting

building reuse

academic buildings

Southern Ontario

Architecture

Inner 'Green' Space A Study of Conservationism in Atrium Spaces Using Academic Buildings in Southern Ontario

Smith Jr., Barry Warren

January 2008

Since taking hold in the mid 1960s, the modern atrium has become prevalent in many designs and buildings within contemporary architecture. The modern day atrium has endured to find its place amidst our current technologies and design aspirations by continuing to offer a capacity for assisting in urban strategies, providing strong economic returns on investment, conserving or recycling existing buildings, and for its potential to reduce energy consumption. Today, as concerns for energy and the environment rise to prominence within contemporary opinion, the reliance on more integrated conservational design strategies such as what the atrium offers in the matter of material and energy conservation is more relevant than ever. Yet simply including an atrium space within a building does not guarantee its effectiveness in realizing the potential for sustainable design. By selecting to survey a collection of recently completed academic buildings in Southern Ontario, the thesis aimed to examine what current reality exists in our use of the atrium with regards to its conservational characteristics. By examining the atrium’s ability to integrate sustainable design strategies in three areas: the adaptation into existing buildings and flexible program space; the use of effective daylighting; and the provisions to manage passive air handling; the thesis identified what conservational attributes are present and how often these functions are accomplished within the atrium designs of the selected study group of buildings. Overall it was found that the current trends of conservationism in atria of the studied academic buildings are constant, that is, they do not exhibit growth proportional to the increasing awareness of ‘green’ and sustainable thinking seen in today’s culture. Furthermore, the thesis closes with a concluding critique, providing a discussion surrounding the belief that though the atrium is a possible material and energy conservational tool, much of its success can be attributed to the meticulous planning and holistic approach involved in the execution of successfully resolved atria designs.

atrium (architecture)

sustainability

conservationism

air movement

daylighting

building reuse

academic buildings

Southern Ontario

Experimental study of an intermittent ventilation system in high occupancy spaces

Kabanshi, Alan

January 2017

Spaces with high occupancy density like classrooms are challenging to ventilate and use a lot of energy to maintain comfort. Usually, a compromise is made between low energy use and good Indoor Environmental Quality (IEQ), of which poor IEQ has consequences for occupants’ health, productivity and comfort. Alternative strategies that incorporate elevated air speeds can reduce cooling energy demand and provide occupant’s comfort and productivity at higher operative temperatures. A ventilation strategy, Intermittent Air Jet Strategy (IAJS), which optimizes controlled intermittent airflow and creates non-uniform airflow and non-isothermal conditions, critical for sedentary operations at elevated temperatures, is proposed herein. The primary aim of the work was to investigate the potential of IAJS as a ventilation system in high occupancy spaces. Ventilation parameters such as air distribution, thermal comfort and indoor air quality are evaluated and the system is compared with a traditional system, specifically, mixing ventilation (MV). A 3-part research process was used: (1) Technical (objective) evaluation of IAJS in-comparison to MV and displacement ventilation (DV) systems. (2) An occupant response study to IAJS. (3) Estimation of the cooling effect under IAJS and its implications on energy use. All studies were conducted in controlled chambers. The results show that while MV and DV creates steady airflow conditions, IAJS has  cyclic airflow profiles which results in a sinusoidal temperature profile around occupants. Air distribution capability of IAJS is similar to MV, both having a generic local air quality index in the occupied zone. On the other hand, the systems overall air change rate was higher than a MV. Thermal comfort results suggest that IAJS generates comfortable thermal climate at higher operative temperatures compared to MV. Occupant responses to IAJS show an improved thermal sensation, air quality perception and acceptability of indoor environment at higher temperatures as compared to MV. A comparative study to estimate the cooling effect of IAJS shows that upper HVAC setpoint can be increased from 2.3 – 4.5 oC for a neutral thermal sensation compared to a MV. This implies a substantial energy saving potential on the ventilation system. In general, IAJS showed a potential for use as a ventilation system in classrooms while promising energy savings. / Lokaler där många människor vistas, som t.ex. klassrum, är ofta svåra att ventilera. Att upprätthålla en bra termisk komfort kräver en hög energianvändning. Vanligtvis blir det en kompromiss mellan låg energianvändning och bra kvalitet på inomhusmiljön (IEQ). Dålig IEQ får konsekvenser för människors hälsa, produktivitet och komfort. Alternativa ventilationsstrategier, som använder förhöjda lufthastigheter, kan minska kylbehovet och därmed energianvändningen. I denna avhandling utvärderas en ny ventilationsstrategi, Intermittenta luftstrålar (IAJS), där korta perioder med hög lufthastighet genererar en svalkande effekt, när rummets temperatur upplevs som för hög. Det primära syftet med arbetet var att undersöka potentialen hos IAJS som ett ventilationssystem för klassrum, där den termiska lasten ofta är hög. Strategin jämförs mot traditionella ventilationsprinciper som omblandande ventilation (MV) och deplacerande ventilation (DV). Parametrar som luftdistributionsindex, termisk komfort, luftkvalitet och energibesparing har utvärderats. Alla studier utfördes i klimatkammare. Resultaten visar att medan MV och DV skapar konstanta luftflödesförhållanden genererar IAJS cykliska hastighetsprofiler samt en sinusformad temperaturvariation i vistelsezonen. IAJS klarar att bibehålla ett bra termiskt klimat vid högre operativa temperaturer jämfört med MV. I en jämförelse med ett traditionellt HVAC-system visar beräkningar  att dess börvärde kan höjas från 2.3 till 4.5 °C med bibehållen termisk komfort. Detta indikerar en avsevärd energibesparingspotential vid användande av IAJS.

Intermittent airflow

Indoor air quality

Perceived air quality

Thermal sensation

thermal comfort

Air movement acceptability

Convective cooling

Cooling effect.

Intermittent luftflöde

Luftstrålar

Upplevd luftkvalitet

Termisk komfort

Acceptans av luftrörelser

Konvektiv kylning

Kyleffekt.

Energy Systems

Energisystem