BioLPG is conceptually renewable and sustainable, as it is made from a blend of waste, residues and sustainably sourced materials. BioLPG, can be described as an eco-propane, the chemical makeup of this gas is identical to LPG and is therefore compatible with existing in situLPG products from a combustion perspective.
BioLPG is a co-product of the biodiesel production process. In the manufacturing process, feedstocks undergo a series of complex treatments.
They are combined with hydrogen in a process called hydrogenolysis, which separates and purifies their energy content. During the refining procedure, a variety of waste gases are produced that contain BioLPG. For every tonne of biodiesel, around 50kg of BioLPG is produced from this gas stream. This co-product is then purified to make it identical to conventional propane. The carbon factors associated with BioLPG used for this report are 0.0487kgCO2e/kWh.
The Rinnai report highlights several off-grid building envelopes that can benefit from high efficiency LPG fired water heaters and compares the carbon footprint from an energy transition perspective. The transition focuses on the carbon savings that can be achieved by shifting from widely used oil heating systems to LPG and then upgrading LPG to Bio-LPG.
The applications are modelled for the report using hot water intensive buildings in the off-grid leisure & hospitality sector.
Report author Chris Goggin said: ''This report sets out to establish the environmental impact of a transition in energy types within typical off-grid high volume DHW applications. The energy transition focussed on dominant off-grid energy sources namely oil, LPG and BioLPG.
''The report set out to establish the possible reductions in carbon emissions if this energy transition was used to support widespread decarbonisation in an off-grid setting. The results demonstrate that there is potential for widespread decarbonisation whilst also providing an economical and technically feasible solution for consumers.
''As stated earlier in the report where LPG is already used the incumbent water heating technology can still be used in the future when BioLPG switching is available. This would make use of the existing fuel infrastructure and heating technology which would lead to the potential for both capital and operational expenditure savings for end users.
He concluded by saying: ''Further study should be considered to establish the capital expenditure and operational expenditure impact when BioLPG fired appliances are compared to alternative energies and technology.''
Copies of the report are available on direct request to the company.
www.rinnaiuk.com