Negative energy impacts in the absence of proper baseline studies - a South African case study
- Pretorius, J.H.C., Van Rhyn, P., De Canha, D.
- Authors: Pretorius, J.H.C. , Van Rhyn, P. , De Canha, D.
- Date: 2016
- Subjects: Measurement and verification , Energy efficiency , Underground ventilation
- Language: English
- Type: Conference proceedings
- Identifier: http://ujcontent.uj.ac.za8080/10210/368139 , http://hdl.handle.net/10210/213583 , uj:21171 , Citation: Pretorius, J.H.C., Van Rhyn, P & De Canha, D. 2016. Negative energy impacts in the absence of proper baseline studies - a South African case study.
- Description: Abstract: Energy Conservation projects have become a focus area throughout the world in an attempt to reduce greenhouse gasses. These projects encompass various energy efficient technologies of which the retrofit of old technologies with new technology has become a common phenomenon. Energy savings are usually quantified by comparing actual post-retrofit energy consumption levels with baseline levels representative of the preretrofit status quo, adjusted for changes in energy drivers (e.g. weather). Baseline adjustments during energy conservation projects are of the utmost importance if operating conditions, occupancies, ambient temperatures, production levels and other factors have changed between the baseline period and the postretrofit period. During a recent case study in South Africa, an HVAC retrofit was done on a multistorey building where old technology air-conditioners were replaced with heat pump based units with inverters. To the disappointment of the landlord, the post energy measurements exceeded the baseline energy consumption by approximately 12% without any changes in operating conditions. This paper illustrates the catastrophic effects when an energy efficiency project is accelerated to the implementation stage without due consideration of operating conditions during the pre-implementation stage. A qualitative analysis prior to baseline establishment is proposed.
- Full Text:
- Authors: Pretorius, J.H.C. , Van Rhyn, P. , De Canha, D.
- Date: 2016
- Subjects: Measurement and verification , Energy efficiency , Underground ventilation
- Language: English
- Type: Conference proceedings
- Identifier: http://ujcontent.uj.ac.za8080/10210/368139 , http://hdl.handle.net/10210/213583 , uj:21171 , Citation: Pretorius, J.H.C., Van Rhyn, P & De Canha, D. 2016. Negative energy impacts in the absence of proper baseline studies - a South African case study.
- Description: Abstract: Energy Conservation projects have become a focus area throughout the world in an attempt to reduce greenhouse gasses. These projects encompass various energy efficient technologies of which the retrofit of old technologies with new technology has become a common phenomenon. Energy savings are usually quantified by comparing actual post-retrofit energy consumption levels with baseline levels representative of the preretrofit status quo, adjusted for changes in energy drivers (e.g. weather). Baseline adjustments during energy conservation projects are of the utmost importance if operating conditions, occupancies, ambient temperatures, production levels and other factors have changed between the baseline period and the postretrofit period. During a recent case study in South Africa, an HVAC retrofit was done on a multistorey building where old technology air-conditioners were replaced with heat pump based units with inverters. To the disappointment of the landlord, the post energy measurements exceeded the baseline energy consumption by approximately 12% without any changes in operating conditions. This paper illustrates the catastrophic effects when an energy efficiency project is accelerated to the implementation stage without due consideration of operating conditions during the pre-implementation stage. A qualitative analysis prior to baseline establishment is proposed.
- Full Text:
Evaluation of savings from an underground fan replacement project
- De Canha, D., Pretorius, J.H.C., Laubscher, R., Van Rhyn, P.
- Authors: De Canha, D. , Pretorius, J.H.C. , Laubscher, R. , Van Rhyn, P.
- Date: 2016
- Subjects: Measurement and verification , Energy efficiency , Underground ventilation
- Language: English
- Type: Conference proceedings
- Identifier: http://hdl.handle.net/10210/213676 , uj:21182 , De Canha, D. et al. 2016. Evaluation of savings from an underground fan replacement project.
- Description: Abstract: The savings calculation methodology from a fan replacement project is presented in this paper. The fans replaced are part of the underground ventilation system in a platinum mine. Initially, 290 axial flow fans rated at 45kW were to be replaced with carbon fibre composite fans. According to the manufacturer, the carbon fibre construction allowed for an optimum blade shape which results in the carbon fibre fan being more energy efficient. However, after the first few fans were replaced, it was discovered that the mine’s blasting activities caused the carbon fibre fans to crack and eventually fail. Fortunately, the manufacturer was able to produce a steel fan with similar performance to that of the carbon composite fans and continue replacing old fans in the mine. The savings were independently verified according to the International Performance Measurement & Verification Protocol (IPMVP). This involved testing old and new fans in a BS848 test duct and comparing the old and new fans at various operating points on their fan curves and making adjustments for operating conditions such as air density underground vs at the test duct. It was found that the new fans saved 5kW on average, across a range of operating points.
- Full Text:
- Authors: De Canha, D. , Pretorius, J.H.C. , Laubscher, R. , Van Rhyn, P.
- Date: 2016
- Subjects: Measurement and verification , Energy efficiency , Underground ventilation
- Language: English
- Type: Conference proceedings
- Identifier: http://hdl.handle.net/10210/213676 , uj:21182 , De Canha, D. et al. 2016. Evaluation of savings from an underground fan replacement project.
- Description: Abstract: The savings calculation methodology from a fan replacement project is presented in this paper. The fans replaced are part of the underground ventilation system in a platinum mine. Initially, 290 axial flow fans rated at 45kW were to be replaced with carbon fibre composite fans. According to the manufacturer, the carbon fibre construction allowed for an optimum blade shape which results in the carbon fibre fan being more energy efficient. However, after the first few fans were replaced, it was discovered that the mine’s blasting activities caused the carbon fibre fans to crack and eventually fail. Fortunately, the manufacturer was able to produce a steel fan with similar performance to that of the carbon composite fans and continue replacing old fans in the mine. The savings were independently verified according to the International Performance Measurement & Verification Protocol (IPMVP). This involved testing old and new fans in a BS848 test duct and comparing the old and new fans at various operating points on their fan curves and making adjustments for operating conditions such as air density underground vs at the test duct. It was found that the new fans saved 5kW on average, across a range of operating points.
- Full Text:
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