Tag: compressor

Compressor Survey

As I mentioned in my last post, I am trying to reduce the energy usage at work by looking at the process equipment.  The first piece(s) of equipment to fall under the spotlight was the compressor.  Although maintenance did not want to change any of the settings they did arrange for someone from the Company who installed and services the compressors to come in and talk to me about them (although maintenance were conspicuously absent from the meeting).

The outcome of the meeting was that we had a set of dataloggers installed to look at the air usage over a week.  From that we received a report detailing the loads during the week, the cost of generating the air, the annual cost of the air, and a number of recommendations for saving energy and money.  It is hoped that when faced with the hard data, then maintenance and management would decide that changes needed to be made.

The first of the recommendations was to use only one compressor, not only would this save us electricity costs in excess of £1000 per year, but would also save £250 a year in servicing costs.  This might not have been an economically viable option if it wasn’t for the fact that the pipework is already in place  and all we have to do it turn a valve on.  So, from this, another question arises – why do we have a separate compressor?  The second plant was installed in 2001, 15 years after the first plant – why not use the same compressor?  There is no one in the Company that can answer this question – so, as maintenance cannot think of a good reason not to do this, the valve will be opened and both plants monitored to check that there is no problem.  The specification of the main compressor and the air requirements of the main plant are such that it can easily provide enough air for both plants.  Money saved.

Second recommendation?  You’ve guessed it, turn the pressure down – apparently a one bar reduction in pressure will save £185 per year.  You might think that this is not much of a saving, but at 10p per kWh, it is equivalent to 1 tonne of CO2e per year, and it is all waste.  I was a little disappointed that the survey could not tell me what my minimum operating pressure is, but as far as I can tell, as long as I keep above 6bar, then the second plant will be fine, and if I do reduce the pressure below the minimum for the main plant then it will just stop – which is not a disaster, we just turn the pressure back up and start it up again – as long as it is in a controlled way no damage will be done.

Recommendation three was something I am not sure about – there is the possibility of recovering the heat generated by the compressor and using it to heat the warehouse.  However, the figures were based on the cost of electrical heating, gas is about 20% of the cost of electricity at the moment, and we do not want heat all year round.  This suggestion is parked for now.

The final suggestion is to conduct a leak survey.  Whilst we do check for leaks on a weekly basis, this is only done by listening for any leaks.  It is possible that this is missed, and, if we are using the connecting pipework across the warehouse to power both plants it may be more worthwhile (expected cost £350).  However, what is making me think that this could be worthwhile is that the survey showed the air usage graphically for the week.  There were a couple of days where the main plant was shut down, and the air usage, whilst low, was not zero.  Whilst there may be something that is kept under pressure when the plant is off, in which case maybe we can lock it off, it may be because of leaks in the system.  I have estimated that if this was the case, then the cost of these leaks is £300 per annum.

So, I have the data, and although it cost £200 to get the survey done, we should be able to save up to £1500 a year for no outlay at all and we can have the changes made by the start of the CRCEE.

Path of Resistance

Over the last few months the requirement to reduce our energy consumption at work has increased in the build up to the Carbon Reduction Commitment Energy Efficiency scheme that launches on April 1st.  Whilst I am trying to co-ordinate all the efforts of the group, I am also very aware that as the largest site in the group, I need to try to ensure that we are also making a concerted effort to improve efficiency.

For a bit of background, we are a site that operates 24/7, with two plants running most of the time, depending on customer demand – both do a slightly different job with, in the main, different customers, and are completely different in their mode of operation.  One of these plants and associated peripherals and warehousing space etc is responsible for about 70% of the electricity consumption on site.

Whilst we have started to tackle the lights (more about this in a later post), I think we also need to start looking at the processing equipment itself.  We have had a couple of surveys conducted on site, including one by the Carbon Trust, and both have mentioned the operating pressure of the two compressors that we have.  (We actually have three, but the third is kept as a spare.)  This is where the resistance has started. We have a maintenance team of four, and, unfortunately they have not bought in to the idea of using the CRCEE as a way of making any changes that they would like, and I think this is because they are too comfortable and don’t like the idea of change – I may be doing them a disservice, but I have yet to see any real evidence.

OK, now for a bit more background whilst I explain the issues at hand – sorry if you don’t find compressors overly exciting, feel free to skip to the conclusion.  The compressors are of different types and are both operating all the time (although not on load).  One is a variable speed drive (VSD) compressor which changes its power consumption to match the load, the other is either on or off load.  The VSD compressor has apparently been specified to run both plants if necessary and the pipework is in place to allow us to do that.  This compressor also has a fairly large receiver tank to store the compressed air and smooth out the load.  The compressor kicks in when the pressure in the tank is below 7.5 bar and turns off at 8.5bar (this will become relevant as my story progresses).

So, first question, is the compressor operating in the most efficient way?

Mainenance – it was the most efficient compressor we could get at the time – the suppliers said so.

Me – but, is it running in the most efficient way?  Is it set at the right pressure?

Maintenance – it has always been at that pressure since it was installed.  It is a variable speed drive compressor and the most efficient available at the time.

Me (there is a pattern here) – but can we change the settings so it is operating more efficiently?

Maintenance – it turns off when it hits 9bar and only comes on when it is at 6bar (see, I told you it was relevant).

Herein lies my perennial problem – not only do I not get the answers to the question I asked, but when I do get an answer there is no guarantee that it is the correct answer.  So, my question is, how much time do I spend trying to convince the maintenance team that this is a really good thing, that they don’t have a choice in the long run, that running production equipment inefficiently really is a waste of money and resources, and that they might actually enjoy having some projects out of the ordinary to work on instead of the routine stuff.  The alternative is to go ahead and arrange for some of these things to happen and get them annoyed with me – something I am not afraid to do, but it is hardly conducive to future co-operation, although it would mean we do save energy sooner rather than later.

With regards to the compressor – I have found a solution which I shall tell you about in my next post.

Disclaimer – I am not claiming that all maintenance departments are this obstructive, we have other maintenance personnel within the Company that are leading the way, but I bet there is someone like this in most companies.  Have you encountered similar problems, how did you deal with them?