COVID-19 Business Contingency & Continuity Plan & Project Risk – Update

As part of our commitment to our staff, clients, supply chain and the wider public, SP Civil Design Ltd. has developed this Business Continuity Plan.  This ensures that we are still able to offer the quality service by which we distinguish ourselves and that we can continue to perform safely during these unprecedented circumstances.  This plan is subject to review as the situation develops.

We are pleased to report that the business currently remains fully operational and we will continue to provide our clients with a first-class professional service.  Thankfully the health of our staff has not yet been directly affected by COVID-19.

In accordance with the latest advice from the Government the following measures have been implemented with immediate effect:

  • We remain open for business and staff have full access to project data, critical software applications and other information;
  • Site visits will be undertaken where necessary, to be assessed on an individual basis, with appropriate risk assessments undertaken in advance;
  • Where possible, all meetings will be conducted remotely, by Skype, etc.  Face-to-face meetings will be undertaken where necessary, to be assessed on an individual basis, with appropriate risk assessments undertaken in advance;
  • We regret we will not be attending in person any social or industry events, such as networking, etc., for the foreseeable future.  We will still try to attend events that are being conducted over the internet;
  • Where staff are due to visit clients’ or third party premises for essential site visits or meetings, etc., then the client’s protocols for access will be followed;
  • Travel out of the region will only take place if deemed absolutely necessary.

We continue to closely monitor the situation and will update our plans/advice accordingly.

Please contact us directly if you have any further queries relating to the above.

We remain very much open for business.  We understand that it is critical that we deliver for our clients and we will maintain regular communications with everyone that we deal with on a daily basis, who are experiencing the same challenges.

We believe that SP Civil Design Ltd. is well placed to weather this storm and we will make it through.  We are responding to a continually moving situation, and we may not always have the answers.  If there is anything that you think we should be doing and we aren’t, then please bring it to our attention as soon as possible.

Thank you for your continuing support.

SP Civil Design’s specialism is water and environmental civil engineering, with a focus on sustainability.  If you would like to discuss a potential project with us, or have any comments or questions about this article, then please get in touch via our Contact section or email steve@spcivildesign.co.uk.

Sustainable Drainage – A Brief Introduction

What Is Sustainable Drainage?

Sustainable Urban Drainage Systems (or SUDS for short) mimic the natural drainage patterns in a development as far as possible, to alleviate flooding and reduce associated pollution during heavy or prolonged rainfall.

To illustrate this, let’s compare how the drainage system serving a hard paved surface responds compared to that of a natural green space.

Firstly, when rain falls on a green space, such as a field, woodland or even garden, it stays in situ for a while.  It soaks into the ground, it evaporates into the atmosphere or gets absorbed by vegetation.  If it ends up flowing into a river or stream, its passage is slowed down and the volume draining to the river is far lower than the volume that originally fell as rain.  Plus, the vegetation also helps to filter out pollutants so the runoff is cleaner.

Conversely, when rain falls onto a hard surface, it flows away much more quickly.  Drainage systems of gullies and pipes collect this water and transport it away as quickly as possible to the nearest river or stream.  It doesn’t soak into the ground, or get absorbed by vegetation, so the volume leaving the site is far greater.  It is also untreated, so any pollution in the water is carried with it.

We can compare the runoff from a hard surface to that from a green surface diagrammatically as follows:

Runoff Comparison Hard Paved Surface vs Green Surface

 

If Q is the flow running off the site, t is time, peak flow is the highest point on the curve and the total volume of runoff is the area under the curve.  Then we can see that both the peak flow and the total volume of runoff for a hard surface tend to be higher than for a green surface.

 

Why Do We Need Sustainable Drainage?

As our towns & cities have grown over the years, more & more pipes pass more & more flow into our streams & rivers, many of which cannot cope with these additional flows.  The result is flooding downstream, erosion, destruction of delicate river habitats and pollution.  It also reduces the amount of water soaking into the ground & recharging the underground aquifers, which means less water is available to supplement the rivers in times of drought and leads to water shortages.

Which is where sustainable drainage comes in.  As I said earlier, SUDS mimic the natural drainage patterns in a development as far as possible, to alleviate flooding and associated pollution during heavy or prolonged rainfall.  Essentially, we are trying to turn the blue line on the curve above into the red line.

 

Key Concepts Behind Sustainable Drainage

The key concepts behind SUDS are that:

  • Rainwater should be encouraged to soak into the ground wherever possible;
  • Surface water run-off from a development should be as free from pollution as possible;
  • Rate of flow of surface water run-off should not be greater than that for an equivalent undeveloped area.

Remember, we are trying to turn the blue line on the curve above into the red line.

 

Sustainable Drainage Techniques

SUDS systems use a variety of techniques to control surface water run-off.  We can provide any number or combination of the following:

  • Soakaways and Other Infiltration Devices – these are essentially underground structures, sized to store water from a rainfall event that is then allowed to soak into the ground naturally;

Soakaway Crates

  • Permeable Surfaces or Paving – these allow the rainwater to pass through the surface into the subbase beneath, where it is stored and again allowed to soak into the ground, unlike traditional paving which is impervious and needs a system of gullies and pipes to channel flow into the sewers. Permeable paving allows these gullies & pipes to be eliminated or much reduced.  It also removes pollution by filtering out fine particles in the water;

Permeable Paving

  • Filter Strips and Swales – these are areas of ground, covered in vegetation, that absorb runoff from adjacent hard surfaces. Filter strips are flatter, while swales resemble long shallow ditches, and are often used to carry the collected water elsewhere.  They slow down the flow of surface water and remove pollutants as the flow is filtered by the planting;

Swale

  • Above Ground Storage & Flow Balancing – is provided by basins and ponds. They can be either dry or wet, with the water level fluctuating to store runoff and flows going out controlled with a specially engineered device to reduce flooding.  By retaining water and use of planting, they can remove pollution.  They can also be an important amenity feature on a site, as well as providing much-needed habitat and biodiversity;

Above Ground Pond

  • Below Ground Storage & Flow Balancing – is provided by large pipes, culverts or tanks, with the outflow again controlled to reduce flooding. They don’t provide any amenity value or reduce pollution as the above ground features do, but they take up much less space and so are often the preferred solution for developers.

Tank Sewers Awaiting Construction at Parade, Leamington Spa

 

Further Information

That is a very brief introduction to sustainable drainage and some of the techniques that can be used to reduce the negative impact of a development on the surrounding environment.  Much more information can be found on the Susdrain website.

SP Civil Design’s specialism is water and environmental civil engineering, with a focus on sustainability.  If you would like to discuss a potential project with us, or have any comments or questions about this article, then please get in touch via our Contact section or email steve@spcivildesign.co.uk.

What Does A Civil Engineer Actually Do?

As a civil engineer with my own small consultancy, I’m often at networking events or business fairs with people outside my industry.  I’ll introduce myself and the conversation will often follow a similar path to this:

“What do you do?”

“I’m a civil engineer” I reply.

“Oh.  {{{BLANK EXPRESSION!}}}  So… what do you actually do?!?”

 

Working in an industry, it is easy to assume that everyone knows what you do.  If someone tells me they are a solicitor, accountant or web developer, I reckon I have a fairly good (if simplistic) idea of what their job entails, but it always amazes me that doesn’t follow through to civil engineering.  So I want to explain what civil engineering is and what we as civil engineers do.  Apologies to those readers in the industry who already know what they do, you won’t have to read on!

 

History of Civil Engineering

 

Civil Engineering History Aztec Pyramid
Aztec Pyramid

Civil engineering has been around as long as humankind itself, since we started constructing shelters instead of living as nomads.  Think about the great structures from ancient civilisations.  In medieval times, most construction of notable buildings was done by craftsmen such as masons and carpenters.  The grand design work was done by architects, although this would have encompassed much of what we understand civil engineers to do today. Indeed, until relatively modern times, there was little distinction between civil engineers and architects.

In the 18th century, the term civil engineering was born, differentiating engineering works for the civilian population from military engineering.  John Smeaton, who designed the Eddystone Lighthouse among many other things, is generally credited as the first to call himself a civil engineer.  In 1771, he formed the Smeatonian Society of Civil Engineers.  Over the next few decades, this evolved into the Institution of Civil Engineers which was formed in 1818 with Thomas Telford as its first President.

The Institution received its Royal Charter in 1828, which finally established the first definition of civil engineering.  The Charter stated that “civil engineering is the application of physical and scientific principles, and its history is intricately linked to advances in understanding of physics and mathematics throughout history. …Civil engineering is a wide ranging profession, …its history is linked to knowledge of structures, material science, geography, geology, soil, hydrology, environment, mechanics and other fields.”  Finally civil engineers had a public definition of what it was that they did.

The late 18th and 19th centuries spawned many of the figures we recognise today as iconic civil engineers.  Smeaton & Telford, Isambard Kingdom Brunel, George Stephenson, Robert Stephenson, Joseph Bazalgette, Benjamin Wright, among many others.

 

Civil Engineering History IKB Brunel
Isambard Kingdom Brunel

But ask someone to name a modern civil engineer and you will probably meet a blank expression.  This is largely because major projects are now delivered by large teams, so we don’t have the great iconic figures we once had.  Sir John Armitt is arguably the most famous civil engineer of today, having led the team that delivered the London 2012 Olympic Games infrastructure.

 

Civil Engineering Today

Today, we can say that civil engineering deals with the design, construction and maintenance of the built and natural environment.  It includes roads, bridges, canals, dams, buildings, harbours, railways and airports.  It also includes producing, treating and distributing all the modern utilities that we take for granted such as water, electricity, gas, broadband and sewage.

 

Civil Engineering Modern Falkirk Boat Wheel
Falkirk Boat Wheel

With such a wide-reaching remit, today’s civil engineer tends to be a specialist, not the Jack (or rather Master) of All Trades we saw with the likes of Brunel.  Although having a good general grounding in many of the areas mentioned above, he or she will tend to specialise in a few select areas.

 

“So What Do You Do?”

I have more than 20 years’ experience as a civil engineer, but that is not to say I know it all, I certainly don’t.  Ask me to design a bridge or a multi-storey car park and I wouldn’t know where to begin, although I have a reasonably good idea about how they work and what would be involved.  My specialisms are in water and environmental engineering.  Those who know me will know that I design, amongst other things:

  • sewers and pipe networks;
  • sewage treatment plant;
  • roads and site layouts;
  • drainage and flooding solutions;
  • sustainable drainage systems;
  • erosion protection systems.

 

Civil Engineering Sustainable SUDS Infiltration Basin
Stormwater Pond

But even these seemingly simple titles are catch-all terms that include a whole range of other things.  To take an example from above: sewer network.  It’s just two words – sounds pretty simple, doesn’t it?  But a sewer network can contain a whole host of different elements: pipes, manholes, control structures to hold back flows, storage tanks to contain those flows, overflow structures to relieve the system & prevent flooding, pumping stations to make water flow uphill, river outfalls, the list goes on.  Drill into each of those other simple terms above and you will find they too are far more involved than they first seem.

Perhaps it is the fact that civil engineering covers such a huge remit that we should not be surprised that the general public don’t know what we do.  Perhaps that is why I find “what do you do?” to be such a difficult question to answer when talking to non-engineers.  However, hopefully these few words have gone some way to spreading the word.

 

SP Civil Design’s specialism is water and environmental civil engineering, with a focus on sustainability.  If you would like to discuss a potential project with us, or have any comments or questions about this article, then please get in touch via our Contact section or email steve@spcivildesign.co.uk.